Apparatus For Transferring Products Between Conveying Paths Field of the Invention The present invention relates to an apparatus for optionally transferring flexible sheet-like products, in particular printed products such as newspapers, periodicals, envelopes and the like, from an imbricated formation transported along a first conveying path onto a second conveying path which branches off from the first conveying path.
Background of the Invention An apparatus of this type is known from EP-A-O 478 911 and the corresponding US-A-5,195,741. The first conveying path of this apparatus is determined by a belt 1o conveyor, of which the active strand is guided in the form of an S around deflecting rollers in order to form a descending step. Of each product printed products of the products transported in the imbricated formation by means of the belt conveyor, the leading edge and an adjoining border region is [sic] exposed on account of the inherent rigidity of the products upon crossing over the step. A conveying arrangement which is defines a second conveying path has two conveying arms which are arranged one behind the other, are connected to one another in an articulated manner and are designed as belt conveyors. The downstream end of the said pair of conveying arms is pivotably mounted in a stationary manner and the upstream end, for the purpose of releasing products from the imbricated formation, can be moved into an operating position, adjacent to the step, :i 20 and, for the purpose of terminating the release operation, can be moved into a retracted 9position, spaced apart further from the step. During movement into the operating 9o• position, the second conveying arrangement grips that product which projects beyond the step by way of its exposed, leading border region. This and possibly following products are transported on along the second conveying path. With the movement of the upstream end of the second conveying arrangement into the retracted position, the last-gripped product is drawn away from beneath the following product, with the result that the latter and the following products continue to be conveyed in the imbricated formation along the •first conveying path.
covein There is a need to develop an apparatus of the generic type such that, along with the high processing capacity, smooth running is ensured.
[R:\LIBLL] 14304speci.doc:kch Object of the Invention It is an object of the present invention to overcome or ameliorate some of the disadvantages of the prior art, or at least to provide a useful alternative.
Summary of the Invention There is firstly disclosed herein an apparatus for optionally transferring flexible sheet-like products, in particular printed products such as newspapers, periodicals, envelopes and the like, from an imbricated formation transported along a first conveying path onto a second conveying path which branches off from the first conveying path, having a first conveying arrangement, which predetermines the first conveying path and has exposure means for exposing a leading edge and an adjoining border region of the products, and having a second conveying arrangement which determines the second conveying path and of which the upstream end, for the purpose of releasing products from the imbricated formation, can be moved into an operating position, adjacent to the exposure means, and, for the purpose of terminating the release operation, can be moved into a retracted position, spaced apart further from the exposure means, wherein the exposure means have in each case one guide element on the two sides of the first conveying path and, for the purpose of transferring products from the imbricated formation, said guide elements can be moved relative to one another from a rest position, in a direction transverse to the first conveying path into an exposure position in order, on 20 account of the resulting change in the first conveying path, for the leading edge and the leading border region of the relevant product to be exposed and deflected from the first ••co conveying path in the direction of the second conveying path.
Brief Description of the Drawings A preferred embodiment of the invention will now be described, by way of example only, with reference to the accompanying drawings, wherein: S* •Figure 1 shows an embodiment of the apparatus according to an embodiment of the invention in elevation, flexible sheet-like products being transported in an imbricated ,oformation along a first conveying path; Figure 2 shows the apparatus shown in Figure 1 in the same type of illustration 30 as the latter, products being transferred from the imbricated formation to a second conveying path and continuing to be conveyed along the latter; and Figure 3 shows, on a larger scale than Figure 2, part of the apparatus shown in Figure 2.
\LIBLL]I 4304speci.doc:kch Detailed Description of the Preferred Embodiments The apparatus illustrated in the drawing has a first conveying arrangement 12, which defines a first conveying path 10. Said conveying arrangement is intended for transporting in a conveying direction F flexible sheet-like products 14, in the present case newspapers, which occur in an imbricated formation S. The apparatus is also suitable for processing other printed products, such as periodicals, envelopes and the like. At a branching location 16, a second conveying path 18 branches off from the first conveying path 10, the second conveying path being determined by a second conveying arrangement In the imbricated formation S, each product 14 rests on the respectively preceding product. At the branching location 16, the first conveying arrangement 12 is assigned an exposure arrangement 22, which is intended for exposing the leading edge 24 in the present case the folded edge of the folded printed product and an adjoining border region 24' of the respectively first product 14 which is to be fed to the second conveying arrangement The first conveying arrangement 12 has two belt conveyors 26, 28 which are arranged directly one behind the other and, with the guide element 32 of the exposure arrangement 22 located in the rest position .oo.
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oooo oO:io [R:LIBLL]14304speci.doc:keh WO 00/56648 4 PCT/CH99/00627 see figure 1 define a conveying plane with a first, rectilinear conveying path 10. The first belt conveyor 26 has a conveying belt 34 which at the downstream end, at the branching location 16, is guided around a driven roller 36. The latter forms a second guide element 32' of the exposure arrangement 22. The top, active strand 34' of the conveying belt 34 runs through beneath the guide element 32, which is likewise designed as a roller 38. The axis 38' of the roller 38 is located upstream of the axis 36' of the roller 36, as seen in the conveying direction F. A holding-down belt 40 is guided around the roller 38, which serves as guide element 32, the active strand 40' of said holding-down belt forming, together with the active strand 34' of the conveying belt 34, a conveying nip 42 for the imbricated formation S, and the return strand 40'' of said holding-down belt being guided by way of a lengthcompensating arrangement which forms a changeablelength loop. At the upstream end of the first belt conveyor 26 (this end not being shown), both the conveying belt 34 and the holding-down belt 40 is [sic] guided around corresponding rollers.
The exposure arrangement 22 comprises the two guide elements 32, 32' which are formed by the rollers 36, 38, and a drive element 46 in the present case a cylinder/piston subassembly for the purpose of moving the roller 38 from the rest position 30, shown in figure 1, into an exposure position 30', shown in figures 2 and 3, and back again. During movement from the rest position 30, in which the strand 34' of the conveying belt 34 runs rectilinearly to the roller 36, into the exposure position 30', the strand 34' is lowered between the stationary roller at the upstream end of the first belt conveyor 26 and the stationary roller 36, with the result that it runs in the form of an S around a region of the roller 38 and the roller 36. The change in the length of the active strand WO 00/56648 5 PCT/CH99/00627 of the holding-down belt 40 during movement of the roller 38 is compensated for by corresponding pivoting of the spring-loaded lever of the length-compensating arrangement 44. For the purpose of compensating for the corresponding changes in the length of the conveying belt 34, the latter is formed from elastomeric material.
The roller 38 is mounted on both sides on in each case one link plate 48 which, at the other end, is mounted in a freely pivotable manner on the spindle which bears the roller 36. The axis 38' of the roller 38 thus moves along part of the circular movement path 38'' about the axis 36' of the roller 36.
The second conveying arrangement 20 has a third belt conveyor 50, which is arranged above the second belt conveyor 28, and a transfer conveyor 52, which is arranged directly upstream of the third belt conveyor.
The transfer conveyor is formed by two belt conveyors 56, 58 which together form a conveying nip 54 and each have two conveying arms 60, 60' and 62, 62' which are connected to one another in an articulated manner. The first conveying arms 60, 62, which are arranged directly upstream of the third belt conveyor 50, are pivotably mounted in a stationary manner one above the other, by way of their conveying end, such that the conveying nip 54 opens out level with the top strand of the third belt conveyor 50, in order for the products 14 transported by means of the transfer conveyor 52 to be directed to the third belt conveyor 50. The second, upstream conveying arms 60', 62' are articulated at the free end of the first conveying arms 60, 62 and their free, upstream ends 64 can be moved by means of the drive element 46, from a retracted position 66, shown in figure i, into an operating position 66', closer to the exposure arrangement 22, and back again; see figures 2 and 3.
WO 00/56648 6 PCT/CH99/00627 Each of the conveying arms 60, 60' and 62, 62' is assigned a link-like bearing plate 70, the bearing plates 70 of each belt conveyor 56 and 58 being connected to one another in an articulated manner. This articulated connection serves, at the same time, for mounting deflecting rollers 72. The bearing plates assigned to the downstream conveying arms 60, 62 are mounted pivotably at the stationary bearing locations at which the deflecting rollers 74 are mounted near the third belt conveyor 50. A smaller-diameter deflecting roller 76 is mounted in a freely rotatable manner at the free end of the bearing plate 70 assigned to the conveying arm 60'. The belts 78 run, by way of their top, active strand, from the small deflecting roller 76 to the deflecting roller 72, to the deflecting roller 74 near the third belt conveyor 50 and, around a deflecting roller 80, back to the small deflecting roller 76. The deflecting roller 80 is arranged beneath the deflecting roller 72 and is mounted on an extension arm projecting from the bearing plate Fastened at the free end of the bearing plate assigned to the conveying arm 62' is a lozenge-shaped plate 70' on which, at the corners of a triangle, in each case one small deflecting roller 82 is mounted in a freely rotatable manner. As seen in elevation, two of these small deflecting rollers 82 are located on either side of the bearing plate 70 and one is located, approximately in rectilinear extension of the bearing plate 70, at the free end of the plate 70'. The bottom, active strand of the belts 78' runs from the small deflecting roller 82 arranged at the free end, around the small deflecting roller 82, which is directed toward the bottom belt conveyor 58, and around the deflecting roller 72 of this belt conveyor 58 to the downstream deflecting roller 74, which is mounted in a stationary manner. The return strand runs from the latter, around the deflecting roller 72 and around the WO 00/56648 7 PCT/CH99/00627 top small deflecting roller 82, back to the deflecting roller at the free end. At the upstream end 64 of the transfer conveyor 52, the belts 78, 78' form a tapering inlet 54' into the conveying nip 54, as seen in the conveying direction F.
The spindle 82', on which the small deflecting roller 82 arranged at the free end of the top belt conveyor 58 is mounted in a freely rotatable manner, projects axially beyond the plate 70'. The spindle 82' is guided in a rectilinear guide element 86 by way of said projecting end regions. In the operating position66', the small deflecting roller 82 mounted on the spindle 82' is located in the vicinity of the roller 38 and approximately level with the axis 38' thereof, while the small deflecting roller 76 is located adjacent to the roller 36. An imaginary rectilinear extension of the conveying nip 54 forms approximately a tangent to the roller 36. A drive link plate 84 is articulated on the plate 70', above the spindle 82', and, at the other end, is mounted pivotably on the spindle which bears the roller 38.
The apparatus shown in figures 1 to 3 functions as follows. In the rest position 30 of the roller 38 and thus in the retracted position 66 of the end 64 of the transfer conveyor 52, the imbricated formation S is conveyed through, between the rollers 36, 38 of the exposure arrangement 22, in the conveying plane to the second belt conveyor 28 and conveyed away by means of the latter. If, then, at least one product 14 is to be ejected from the imbricated formation S, the drive element 46 is used to move, at the same time, the roller 38 into the exposure position 30' and the end 64 of the transfer conveyor 52 into the operating position 66' On account of the resulting change in the course of the active strand 34' of the conveying belt 34, and with the inherent rigidity of the products 14 being WO 00/56648 8 PCT/CH99/00627 utilized, the leading edge 24 and the adjoining border region 24' of that product which has its leading edge 24 leaving the through-passage defined by the rollers 36 and 38 lifts off from the preceding product 14 which is still to be fed, or has been fed, to the second belt conveyor 28. It strikes, by way of its leading edge 24, at an acute angle against that section of the belts 78' which is located between the small deflecting rollers 82, and is deflected and carried along by the same in the direction of the conveying nip 54. If only a single product 14 is to be removed from the imbricated formation the drive element 46 is then activated as soon as the relevant product 14 is retained in the conveying nip 54 by way of the leading border region 24'. On the one hand, on account of the resulting movement of the end 64 of the transfer conveyer 52, the product 14 gripped by the same is drawn out from beneath the following product 14 and continues to be conveyed along the second conveying path 18 and, on the other hand, on account of the roller 38 being pivoted into the rest position 30, the following products 14, in turn, continue to be conveyed along the first conveying path If a plurality of products 14 following one after the other are to be transferred from the first conveying path 10 into the second conveying path 18, the exposure position 30' and the operating position 66' are maintained for a correspondingly longer period of time.
In order to synchronise the exposure arrangement 22 and the transfer conveyor 52 with the products 14 of the incoming imbricated formation S, a sensor for detecting the leading edge 24 of the products 14 is preferably arranged upstream of the branching location 16, said sensor emitting its signals to a control arrangement which activates the drive element 46.
WO 00/56648 9 PCT/CH99/00627 The rollers 36 and 38 are spaced apart from one another to the extent where they do not form a clamping nip for the products 14 conveyed through them. This makes it possible for the product 14 fed to the second conveying path 18 to be easily drawn away from beneath the following product 14, because the latter is held back by the interaction between the active strand 34' and the roller 38.
It is also conceivable, of course, for the two rollers 36 and 38 to be of movable design, in order for it to be possible- to adjust the outlet direction of the first belt conveyor 26.
It is also possible for the passive strand of the conveying belt 34 to be guided by way of a lengthcompensating arrangement; in this case, the conveying belt 34 need not be of elastic design.
It is not necessary for the exposure arrangement 22 to be arranged at the downstream end of a belt conveyor.
It is also possible for it to be arranged in the center of the active strand, one guide element 32' being located beneath, and the other 32 being located above, the active strand.
It is, of course, also possible for the second conveying arrangement 20 to be designed differently.
In the exemplary embodiment shown, all the conveyors in the conveying arrangement are driven continuously at the same conveying speed. It is also possible, however, for the second conveying arrangement to be operated by the start/stop method.