Field of the Invention
The invention relates to an apparatus for banderoling or banding stacks of flat workpieces.
An apparatus disclosed in European Patent EP 0 640 529 B1 for banderoling or banding stacks of flat workpieces includes a stationary stacking shaft having a liftable and lowerable shaft base, a belt conveyor filling the stacking shaft with respective copies of printed products and a band supply roller disposed in front of and behind the stacking shaft. The band supply roller has bands which are welded to one another in the region of the stacking shaft and are accordingly guided in one piece from one band supply roller over the base of the shaft to the other band supply roller. The base of the shaft is lowered a distance corresponding to the increase in the height of a stack being formed thereon. In that regard, the band located with one section under the stack and on the base of the shaft rests on an end face facing downstream with respect to the conveying direction of the belt conveyor and on an upstream-facing end face of the stack being formed. After the intended height of the stack has been attained, an auxiliary carrying device temporarily accommodating the copies supplied to the stacking shaft is moved into the stack forming area. The band from the end face of the stack facing upstream and from the end face of the stack facing downstream is respectively pushed by a welding bar over the upper side of the stack until the latter is strapped or tied. In that regard, two sections of the band are disposed in mutual contact under the action of a respective one of the welding bars and are welded to one another in that position by the welding bar. A two-layer welded section of the band which is consequently presented is severed so that the stack is strapped by a closed band, and the remaining band once more extends in one piece from one band supply roller to the other.
During the strapping of the stack having an intended height, the welding of the band and the removal of the banded stack from the shaft base, the auxiliary carrying device brought temporarily into the stack-forming area performs the function of the shaft base and transfers that part of the next stack to be formed, which is formed during the aforementioned procedures and accommodated by the auxiliary carrying device, and the section of the band located underneath the stack again to the shaft base once more positioned in the vertical position thereof.
A given amount of time is required in order to move the aforementioned auxiliary carrying device into the stack forming area. In the heretofore known auxiliary carrying device, the flat workpieces accumulating during that time period are temporarily backed up on the aforementioned belt conveyor.
In order to complete a banded stack, the heretofore known device requires a time period that is made up of the time necessary for piling up a stack of a specific number of copies and the time necessary for banderoling or banding the stack.
A time period that is shortened with respect thereto is required with a small package delivery system which has been marketed under the designation type PAS 66 by Heidelberger Druckmaschinen A.G., Heidelberg, Germany. That device has a stacking station, a banderoling or banding station and a cyclically conveying endless conveyor provided with stacking shafts. A band supply extends in one piece (after suitable welding has been performed) from a first supply roller to a second supply roller and, as opposed to the device known from the hereinafore-mentioned European Patent EP 0 640 529 B1, in such a manner that an unwound band section runs in a plane that is perpendicular to the conveying plane of the endless conveyor.
It is accordingly an object of the invention to provide an apparatus for banderoling or banding stacks of flat workpieces, which overcomes the hereinaforementioned disadvantages of the heretofore-known devices of this general type and which has an alternative band guidance and a cycle time that at most insignificantly exceeds the stack forming period.
With the foregoing and other objects in view, there is provided, in accordance with the invention, an apparatus for forming stacks of flat workpieces and for banding or banderoling the stacks. The apparatus comprises a stacking station, a banding or banderoling station and an endless conveyor for cyclically conveying stacking shafts provided to the endless conveyor. A respective first band guide is formed on a respective one of the stacking shafts and a second band guide is disposed in the banding station. The second band guide together with the respective first band guide form an at least approximately intrinsically closed guide path.
In accordance with another feature of the invention, the apparatus further includes a reversible injection device associated with the banding or banderoling station. During operation, the injection device injects an end section of a band into a respective stacking shaft located in the banding or banderoling station.
In accordance with yet another feature of the invention, the apparatus further includes a clamping, welding and cutting station associated with the banding or banderoling station. A free end of the injected end section is to be clamped in the clamping, welding and cutting station for reversed operation of the injection device.
In accordance with a further feature of the invention, the second band guide is aligned at least approximately in a conveying direction of the endless conveyor.
In accordance with an added feature of the invention, the second band guide includes a floating nozzle configuration.
In accordance with an alternative feature of the invention, the second band guide includes a suction belt drive.
In accordance with a concomitant feature of the invention, the apparatus includes an auxiliary stack carrier temporarily movable over a respective one of the stacking shafts.
Thus, by providing an auxiliary stack carrier movable temporarily or momentarily between two successive flat workpieces over a respective one of the stacking shafts, a cycle time is obtained which is at least approximately limited to the stack forming time.
This is also true of the case wherein, instead, a given number of the continuously accumulating flat workpieces are temporarily or momentarily backed up on the conveyor loading these workpieces in the apparatus according to the invention, in a manner analogous to the heretofore-known apparatus described in the introduction hereto.
Other features which are considered as characteristic for the invention are set forth in the appended claims.
Although the invention is illustrated and described herein as embodied in an apparatus for banderoling or banding stacks of flat workpieces, it is nevertheless not intended to be limited to the details shown, since various modifications and structural changes may be made therein without departing from the spirit of the invention and within the scope and range of equivalents of the claims.
The construction and method of operation of the invention, however, together with additional objects and advantages thereof will be best understood from the following description of specific embodiments when read in connection with the accompanying drawings.
Referring now to the figures of the drawings in detail and first, particularly, to
Stacking shafts 2 are disposed on the endless conveyor 1, following one another along the latter. A respectively trailing boundary of the stacking shafts 2 is formed by rear stops 2.1 and 2.2, and a respectively leading boundary of the stacking shafts 2 is formed by front stops 2.3 and 2.4, as seen in the conveying direction. The rear stops 2.1 and 2.2 are fixed to the first pair of flexible drives 1.1, specifically in such a way that they are disposed opposite one another transversely with respect to the conveying direction, and preferably follow one another at equal intervals in the conveying direction, which then determine the largest possible format of the flat workpieces that can be stacked. The mutual position of the rear stops 2.1 with respect to the rear stops 2.2 is also adjustable by the mutual phase angle of the flexible drives of the first pair of flexible drives 1.1.
The front stops 2.3 and 2.4 are fixed to the second pair of flexible drives 1.2 in an analogous manner.
The stacking shafts 2 are adjustable to specific formats of the flat workpieces 2′ by setting specific mutual phase angles of the first pair of flexible drives 1.1, on one hand, and of the second pair of flexible drives 1.2, on the other hand. A driving device 3, which is diagrammatically represented in
It is believed to be readily apparent that the stacking shafts 2 are conveyed from the stacking station P into the banding or banderoling station B only when a stack 2″ which has a specific number of flat workpieces 2′ has been piled up in the stacking station P if, thereafter, accumulating flat workpieces 2′ are temporarily intercepted and the stack 2″ has contact between the underside thereof and the endless conveyor. Such contact can be broken during the stack formation if, as preferably provided, the stack 2′ is piled up on a stack table 2″″ which is liftable and lowerable (note
The second band guide 2.11, having lower guide sections 2.7 and 2.8 and an upper guide section 2.9, together with the first band guide 2.10, forms an at least approximately or substantially intrinsically or fundamentally closed guide path. In particular, on the upper guide section 2.9 of the guide path as well, precautions which are explained below in greater detail are taken, to the effect that an end section of a band 6 injected into a stack shaft 2 in the banding or banderoling station B initially rests on all of the guide sections 2.5 to 2.9. To this extent, a respective stack 2″ is initially loosely strapped by the end section of the band 6 by injecting a band section always having the same length, measured on usual dimensions of the stack 2″. The aforementioned length is dimensioned in such a way that the leading end of the injected end section reaches a clamping, welding and cutting station 4 (note
The injected end section is a free end of a wound band supply which is not illustrated herein.
For the purpose of injection, the belt drive 5′ revolves clockwise in the illustrated exemplary embodiment, and the band 6 located between a delivery strand of the belt drive 5′ and the aforementioned pressure rollers is injected into the interior of the stacking shaft 2 through a gap formed between the lower guide sections 2.7 and 2.8. In this regard, the entry direction in the illustrated exemplary embodiment is opposite to the conveying direction represented by the arrow 1.4.
In an alternative construction, an injection device is provided which injects the band 6 into the stacking shaft 2, for example by clamping the band 6 between upper and lower belts of a belt drive configuration.
The aforementioned, always constant, length of the injected end section of the band 6 is also dimensioned in such a way that the leading end of the band 6 extends at least approximately over the cross-sectional width of the anvil 4.1. During the injection operation, the band 6 is guided through an opening 4.2′ formed in a plunger 4.2 (note particularly
After the leading end of the injected end section of the band 6 has been clamped, the drive of the injection device 5 is reversed and, therefore, the band 6 initially strapping the stack 2′ loosely is tautened so that it nestles against the strapped surfaces of the stack 2″.
After this state has been reached, the reversed band drive 5′ stops, and a welding bar 4.3 moves in a direction towards the underside of the anvil 4.1 and then welds sections of the band 6 pressed onto the anvil 4.1 with the welding bar 4.3 (note
After the sections of the band 6 pressed onto the anvil 4.1 have been welded, a knife 4.4 moves in a direction towards the underside of the anvil 4.1 and separates a band 6′, which is now closed and wrapped around the stack 2″, from the band supply (note
After this operation has been completed, the plunger 4.2, the welding bar 4.3 and the knife 4.4 move back into the initial positions thereof. The free end of the band supply separated from the closed band 6′ remains in the opening 4.2′ in the plunger 4.2 for the next cycle.
After banding or banderoling has been performed, the anvil 4.1 is also withdrawn from the clamping, welding and cutting station again, the next stack 2″ is displaced from the stacking station P into the banding or banderoling station B and the banded stack 2′ is displaced from the banding or banderoling station B into a following station by temporarily or momentarily driving the endless conveyor 1. Thereafter, the anvil 4.1 is inserted into the banding or banderoling station B again, so that a state or phase according to
The described equipment and sequences for creating a stack 2″ provided with a band 6′ result moreover advantageously in providing the bands 6′ with only a single welded seam.
A second alternative for the reliable guidance of the injected end section of the band 6 above the stack 2″ to be strapped and then to be banded is shown in
The configuration of the perforated belts or round belts and the configuration of the injection device 5 and, if appropriate, of the welding and cutting station 4 and also of the first band guide 2.10, in this regard, depend upon the number of blanks supplied to the respective stacking shaft 2.
For the case wherein the second band guide 2.11 includes the floating nozzle configuration 7.3 mentioned hereinbefore, if necessary or desirable, the configuration of the blast or blower nozzles thereof is also matched to the number of blanks supplied to the respective stacking shaft 2.
As indicated in
Depending upon the configuration thereof, the auxiliary stack carrier 9 is insertable manually or automatically between a last flat workpiece 2′ to be deposited on the stack 2″ and a flat workpiece 2′ which follows thereafter, and temporarily or momentarily stores the flat workpieces 2′ following the aforementioned last one until the endless conveyor 1, represented rather generally herein (in
After this condition or state has been reached, the auxiliary stack carrier 9 is removed from the stack-forming area again, and the flat workpieces 2′ which have accumulated on the auxiliary stack carrier 9 are transferred to the stack table 2″″ (note
Backing up the flat workpieces 2′ temporarily on the feeder belt configuration 10, which is required in the embodiment without the auxiliary stack carrier 9, can thus be avoided. The cycle time of the apparatus explained herein is given at least approximately by the time required to pile up a respective stack 2″. Added thereto is only the time required to displace a respective stacking shaft 2 from the stacking station P into the banding or banderoling station B. As a rule, i.e., beginning from a given number of flat workpieces 2′ per stack 2″, this is because the time required for banding or banderoling is shorter than that for piling up a respective stack 2″.
As is also indicated in
As is only symbolically represented, the stop 11 is adjustable to the format of the delivered flat workpieces 2′ and, for this purpose, is adjustable by a chain 11.1, for example.
The tapes or belts of the stop 11, revolving as explained, advantageously assist in the lowering of the flat workpieces 2′ arriving in the stacking station P.
Furthermore, the lowering of the flat workpieces 2′ which have arrived is promoted by a likewise downwardly moved strand of the feed belt configuration 10 which acts upon the trailing edge of the flat workpieces 2′.
This application claims the priority, under 35 U.S.C. § 119, of German Patent Application 10 2004 008 469.6, filed Feb. 20, 2004; the entire disclosure of the prior application is herewith incorporated by reference.
Number | Date | Country | Kind |
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10 2004 008 469.6 | Feb 2004 | DE | national |