US20070216082A1 - Apparatus for receiving and conveying sheet-like products - Google Patents
Apparatus for receiving and conveying sheet-like products Download PDFInfo
- Publication number
- US20070216082A1 US20070216082A1 US11/686,750 US68675007A US2007216082A1 US 20070216082 A1 US20070216082 A1 US 20070216082A1 US 68675007 A US68675007 A US 68675007A US 2007216082 A1 US2007216082 A1 US 2007216082A1
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- US
- United States
- Prior art keywords
- product
- separating
- gripper
- products
- grippers
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Abandoned
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Classifications
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65H—HANDLING THIN OR FILAMENTARY MATERIAL, e.g. SHEETS, WEBS, CABLES
- B65H5/00—Feeding articles separated from piles; Feeding articles to machines
- B65H5/08—Feeding articles separated from piles; Feeding articles to machines by grippers, e.g. suction grippers
- B65H5/14—Details of grippers; Actuating-mechanisms therefor
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65H—HANDLING THIN OR FILAMENTARY MATERIAL, e.g. SHEETS, WEBS, CABLES
- B65H29/00—Delivering or advancing articles from machines; Advancing articles to or into piles
- B65H29/02—Delivering or advancing articles from machines; Advancing articles to or into piles by mechanical grippers engaging the leading edge only of the articles
- B65H29/06—Delivering or advancing articles from machines; Advancing articles to or into piles by mechanical grippers engaging the leading edge only of the articles the grippers being carried by rotating members
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65H—HANDLING THIN OR FILAMENTARY MATERIAL, e.g. SHEETS, WEBS, CABLES
- B65H29/00—Delivering or advancing articles from machines; Advancing articles to or into piles
- B65H29/66—Advancing articles in overlapping streams
- B65H29/6609—Advancing articles in overlapping streams forming an overlapping stream
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65H—HANDLING THIN OR FILAMENTARY MATERIAL, e.g. SHEETS, WEBS, CABLES
- B65H29/00—Delivering or advancing articles from machines; Advancing articles to or into piles
- B65H29/66—Advancing articles in overlapping streams
- B65H29/6654—Advancing articles in overlapping streams changing the overlapping figure
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65H—HANDLING THIN OR FILAMENTARY MATERIAL, e.g. SHEETS, WEBS, CABLES
- B65H29/00—Delivering or advancing articles from machines; Advancing articles to or into piles
- B65H29/66—Advancing articles in overlapping streams
- B65H29/669—Advancing articles in overlapping streams ending an overlapping stream
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65H—HANDLING THIN OR FILAMENTARY MATERIAL, e.g. SHEETS, WEBS, CABLES
- B65H2301/00—Handling processes for sheets or webs
- B65H2301/40—Type of handling process
- B65H2301/42—Piling, depiling, handling piles
- B65H2301/422—Handling piles, sets or stacks of articles
- B65H2301/4224—Gripping piles, sets or stacks of articles
- B65H2301/42242—Gripping piles, sets or stacks of articles by acting on the outermost articles of the pile for clamping the pile
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65H—HANDLING THIN OR FILAMENTARY MATERIAL, e.g. SHEETS, WEBS, CABLES
- B65H2301/00—Handling processes for sheets or webs
- B65H2301/40—Type of handling process
- B65H2301/44—Moving, forwarding, guiding material
- B65H2301/447—Moving, forwarding, guiding material transferring material between transport devices
- B65H2301/4471—Grippers, e.g. moved in paths enclosing an area
- B65H2301/44714—Grippers, e.g. moved in paths enclosing an area carried by rotating members
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65H—HANDLING THIN OR FILAMENTARY MATERIAL, e.g. SHEETS, WEBS, CABLES
- B65H2301/00—Handling processes for sheets or webs
- B65H2301/40—Type of handling process
- B65H2301/44—Moving, forwarding, guiding material
- B65H2301/447—Moving, forwarding, guiding material transferring material between transport devices
- B65H2301/4473—Belts, endless moving elements on which the material is in surface contact
- B65H2301/44732—Belts, endless moving elements on which the material is in surface contact transporting articles in overlapping stream
Definitions
- the present invention relates to an apparatus for receiving and conveying sheet-like products, such as folded printed products.
- An apparatus of the generic type in the form of a receiving and transfer wheel is known from EP-A 1 055 620 and corresponding U.S. Pat. No. 6,554,268. It comprises a plurality of grippers and a plurality of separating elements in the form of suction mechanisms, which are arranged on a common transporting wheel. Each gripper is assigned a separating element here.
- a product which is located in a receiving region beneath the transporting wheel can be raised, at least in part, by suction attachments such that it can be gripped by a gripper.
- the product which is to be received is located in a stationary stack or in a moving imbricated formation and rests directly on a bearing means or, at least in part, on further products.
- the product is lifted up completely by virtue of the transporting wheel being rotated and, following approximately half a revolution of the transporting wheel, is released again from the corresponding gripper and deposited in an imbricated formation on a belt conveyor.
- Suction mechanisms as separating elements have various disadvantages: in the first instance, the necessary suction-air feed and control means complicates the design and operation of the receiving and transfer wheel. Furthermore, a suction mechanism is only suitable to a limited extent, if at all, for lifting up relatively thick or stiff products or ones provided with loose inserts, e.g. newspapers, periodicals or catalogues, and for lifting up a plurality of products at the same time, in particular in order to form mini-stacks.
- EP-A 1 364 900 and corresponding U.S. Pat. No. 7,150,454 discloses a receiving apparatus which manages without separating elements being provided in addition to grippers.
- the grippers themselves can be moved relative to the products which are to be received, such that a gripper jaw engages beneath, and raises, one or more products. Closure of the gripper then allows the product or the products to be gripped, and transported away, by the same gripper. It has been found in practice that the action of one of the gripper jaws engaging beneath a product can vastly limit the flexibility of the apparatus.
- DE 196 01 693 discloses the practice of guiding the imbricated formation as a whole about a deflecting wheel which can be displaced relative to a supply and removal arrangement. It is not possible here to separate the products or change the position of the products within the imbricated formation.
- the object of the invention is thus further to develop an apparatus of the type mentioned in the introduction such that there is greater flexibility in respect of the mechanical properties of the products which are to be received.
- the separating elements each comprise at least one paddle element which is capable of engaging beneath, and raising, an edge of a product which rests, at least in part, on a further product or on a bearing surface. Suction mechanisms are not used; the product is raised solely by the paddle element as the product rests on a further product, e.g. in an imbricated formation or in a stack, or on a bearing surface. Engaging beneath is understood as meaning that the paddle element is pushed in between the product which is to be raised and the product located therebeneath, which is not to be raised, or the bearing surface.
- the separating element is independent of the gripper in the sense that either it is separated mechanically therefrom or it is mounted on the gripper but can be moved relative to the gripper jaws.
- the paddle element or its free leading edge is lowered, in the first instance, downstream of the product edge which is to be raised, as seen in the movement direction, and is then moved relative to the product at increased speed. In the process, it engages beneath the trailing edge of the product which is to be raised, and thus separates the latter from the rest of the products or from the bearing means. Relative movement of the paddle element in the upward direction causes the trailing edge of the product to be raised and moved into a position in which it is gripped by a gripper. This means that a product edge is introduced into the open gripper mouth by the paddle element.
- the function of the paddle element is preferably assisted by a stop which is arranged in a stationary manner in relation to the movement path of the paddle elements.
- the stop forms a resistance for the leading product edge. As the paddle elements move along their movement path, the trailing edge is thus pushed further along the paddle element and/or deeper into the gripper mouth.
- the separating element and gripper, and also the corresponding movement paths, are independent of one another in principle. At least in the receiving region, however, a separating element is assigned in functional terms to each gripper. Or this purpose, the movement paths, at least in the receiving region, are parallel to one another and the speeds are coordinated with one another.
- the paddle elements enclose or preferably bound a supporting surface which, during the receiving process, supports, at least in part, the product edge or surface which is to be received.
- the paddle element is moved such that, at least in the receiving region, the supporting surface projects, from the spatial region over which the grippers pass as they move, in the direction of the products which are to be received. Upstream and downstream of the receiving region, the supporting surface is preferably located within this spatial region.
- the paddle elements are moved relative to the grippers such that in the receiving region—as seen in side view—the supporting surface opens out into a gripper mouth and/or is located, at least in part, therein.
- the supporting surface is preferably curved convexly in relation to the movement direction of the separating elements. This assists the operation of engaging beneath, and raising, the products and ensures careful treatment of the products.
- the above described movements can be realized in dependence on one another by suitable selection of the shape of the movement paths of the grippers, of the separating elements and, if appropriate, of the products which are to be received and by selection of the speeds.
- the paddle element can preferably also be moved, in particular pivoted, relative to its movement path in order to realize in a straightforward manner the above described movement toward, and engagement beneath, the product which is to be received.
- the separating elements and grippers can then also be conveyed along the same movement path and at the same speed.
- the apparatus according to the invention is advantageously used in order to rearrange printed products which arrive in an imbricated formation.
- unwinding from a roll used for interim storage purposes often gives rise to an imbricated formation which is disadvantageous for further processing, e.g. has the folded edge trailing.
- This formation therefore has to be converted into a different one, e.g. with the folded edge leading.
- the products are conveyed to the receiving region by means of a supply arrangement, in particular in an imbricated formation, received by the grippers, e.g. along the trailing edge, and transferred to a removal arrangement, in particular a belt conveyor, in a discharging region with the formation being changed in the process, e.g. with the gripped edge in front.
- the lower leading product edges in an incoming imbricated formation thus become upper trailing edges in an outgoing imbricated formation.
- the supply arrangement and the removal arrangement form constituent parts of the apparatus according to the invention.
- the products may also be supplied individually rather than in an imbricated formation.
- the apparatus according to the invention has means in order to compensate for irregularities or gaps in the incoming formation, in order that a regular formation which is discharged at timed intervals is established during transfer to the removal arrangement. Equally, it may be desirable specifically to introduce gaps into the outgoing formation and/or to change the product spacing in the outgoing formation.
- the movement paths of the grippers and of the separating elements may thus be displaced in or counter to the conveying direction of the supply arrangement.
- a stop which is preferably present is likewise moved along therewith.
- the grippers and separating elements are arranged on a preferably common transporting mechanism, in particular a transporting wheel, which is mounted on a moveable carriage.
- the transporting mechanism moves toward the product which is to be received and thus reduces the effective product spacing. If a product spacing is to be increased, movement takes place in the opposite direction.
- the separating elements can preferably be activated independently of the grippers, which is advantageous, in particular, in conjunction with a displaceable transporting mechanism. Their activation can then preferably be adapted in order that, even in the event of the transporting mechanism being displaced, the movement for engaging beneath, and lifting up, a product can be carried out at the correct location relative to the moving product.
- the above described displacement mechanism and the adjustable guide track can also advantageously be used for apparatuses according to the preamble of claim 1 which operate with conventional separating elements instead of paddle elements.
- FIG. 1 shows an apparatus according to the invention having a rotatable transporting mechanism for grippers and separating elements and having a supply arrangement and a removal arrangement;
- FIGS. 2 and 3 show the apparatus according to FIG. 1 at two further points in time during the operations of receiving and discharging individual products
- FIG. 4 shows a separating element with a paddle element in two different positions
- FIG. 5 shows the apparatus according to FIG. 1 during the operation of receiving two respective products
- FIG. 6 shows an overview of the apparatus according to FIG. 1 , including the drive system thereof, with a displaceable transporting mechanism in two positions;
- FIGS. 7 and 8 show a view, in detail form, of the apparatus according to FIG. 1 at different points in time during the operation of closing a gap in an incoming formation of products.
- FIG. 1 shows a side view of an apparatus 1 according to the invention with a transporting mechanism which can be rotated about an in this case horizontally running spindle 11 and is in the form of a transporting wheel 10 , on which a plurality of grippers 12 and separating elements 14 are arranged in each case.
- a transporting wheel 10 By virtue of the transporting wheel 10 being rotated in the arrow direction, these grippers and separating elements are moved in the counterclockwise direction along an essentially circular gripper and separating-element movement path U.
- the construction of the transporting wheel 10 and of the grippers corresponds essentially to the apparatus described in EP-A 1 055 620, to which reference is made in addition.
- the separating elements 14 are illustrated in detail in FIG. 4 .
- the transporting wheel 10 is coupled to grippers 12 and separating elements 14 at equidistant spacings along its circumference.
- the number of grippers 12 is equal to the number of separating elements 14 .
- the separating elements 14 each comprise a carrier unit 16 , which projects radially outward from the transporting wheel 10 and is coupled rigidly to the transporting wheel 10 .
- the carrier unit 16 projects beyond the grippers 12 to a slight extent in the radial direction.
- a paddle element 18 is arranged at the radially outer end of the carrier unit 16 such that it can be pivoted about a spindle 26 running parallel to the rotary spindle 11 .
- the paddle element 18 comprises two legs 18 a , 18 b arranged in a V-shaped manner in relation to one another, as seen in side view.
- a first leg 18 a is connected to the carrier unit 16 at one end such that it can be pivoted about the spindle 26 .
- it is connected to a second leg 18 b and encloses an angle of approximately 90° with a tangent to this second leg.
- the second leg 18 b is curved, is used to engage beneath the products 28 by way of its leading edge 18 c , and serves as part of the supporting surface for the products.
- the paddle element 18 can be pivoted at least such that its leading edge 18 c , in a first position, is located radially within the spatial region over which the grippers 12 pass and, in a second position, is located radially outside this region. The leading edge 18 c can thus be moved toward the products 28 .
- the paddle elements 18 here can be pivoted through an angle of 360° about the spindle 26 . In the side view shown, they are located in planes upstream or downstream of the gripper 12 . For each gripper 12 , it is preferably the case that two paddle elements 18 are located laterally in each case in relation to the gripper 12 (not visible in this view). The precise design of the separating elements 14 and of the pivoting mechanism will be described hereinbelow with reference to FIG. 4 .
- the grippers 12 also have a base or carrier unit 20 , by means of which they are mounted on the transporting wheel 10 . They also comprise two gripper jaws 22 , 24 which can assume different positions relative to one another and to the transporting wheel 10 .
- the gripper jaws 22 , 24 can be pivoted, for example, between an open position and a closed position. Synchronous movement of the gripper jaws 22 , 24 allows the gripper 12 to be pivoted as a whole relative to the movement path U and/or about the gripper spindle relative to the carrier unit 20 .
- the above described movements are realized by way of two guide tracks 62 , 64 .
- the two guide tracks 62 , 64 interact with a respective guide roller 58 , 60 (see FIG. 5 ), these guide rollers each being assigned to a gripper jaw 24 , 22 .
- the movement path U is understood hereinbelow as meaning the movement path of the respective carrier units 16 , 20 of the separating elements 14 and grippers 12 . It is independent of the movements of the paddle elements 18 and of the gripper jaws 22 , 24 .
- the movement direction is understood as meaning the direction of movement of the grippers 12 and separating elements 14 along the movement path.
- grippers 12 and separating elements 14 may also be moved in some other way, e.g. by being coupled to a conveying mechanism—which is also common to both—or individually along suitably shaped guide rails. It is not imperative for the gripper movement path to run congruently in relation to the separation-element movement path; it is likewise possible to select a non-circular path.
- the movement path in the discharging region may be U-shaped, as in the case of the apparatus according to EP-A 1 364 900.
- electronic control is also possible in order to achieve the abovementioned movements along, and relative to, the movement path.
- the bearing surface 34 is formed by a conveying belt 37 of a supply arrangement 36 in the form of a belt conveyor.
- the region between the transporting wheel 10 and the bearing surface 34 , in which the products are received, is referred to as receiving region 66 .
- a supporting-type conveying belt 102 of which the top strand is located in the plane of the conveying belt 37 of the belt conveyor 36 , serves—in particular in the case of a displaceable transporting wheel 10 —for preventing the conveying belt 37 from sagging and for producing a defined spacing between the rotary path U and the bearing surface 34 .
- the products 28 are located in an imbricated formation S on the conveying belt 37 , which moves the products in an in this case horizontal supply direction F.
- the supply direction F runs parallel and/or tangentially to the movement path U.
- the paddle elements 18 and grippers 12 are moved, over the greatest possible distance, more or less parallel to the products 28 which are to be received, in order that the products are received reliably and carefully.
- a removal arrangement 38 to which the products 28 are transferred, is located on that side of the transporting wheel 10 which is located opposite the receiving region 66 .
- the region between the transporting wheel 10 and the removal arrangement 38 is referred to as the discharging region 68 .
- the removal arrangement 38 in the present case, is likewise a belt conveyor, the product being deposited on the conveying belt thereof in an imbricated formation S′ and being conveyed away in a removal direction F′, which runs counter to the original supply direction F.
- the folded edges of the products 28 in the outgoing imbricated formation S′ are located beneath a preceding product and at the front, as seen in the removal direction F′, whereas, in the incoming imbricated formation S, they are oriented to the rear, as seen in the supply direction F, and rest on a following product.
- a stop 40 Located downstream of the transporting wheel 10 , as seen in the supply direction F, is a stop 40 against which the leading edges 32 of the product 28 strike during the receiving process.
- the stop 40 can be displaced between two end positions 42 , 44 by means of a drive (not illustrated here).
- the aim is for the trailing edge 30 of a product, as seen in the supply direction F, always to be located in a defined position in relation to the movement path U, in order that a paddle element 18 can engage beneath it.
- the bearing surface 34 is formed by a supporting-type conveying belt 102 .
- the latter is in, for example, a number of parts and is arranged laterally in relation to the conveying belt 37 .
- a supporting conveyor 56 is located in the immediate vicinity of the transporting wheel 10 .
- This supporting conveyor in the present case, has a conveying belt 57 which acts as a pressure-exerting belt and, over approximately a quarter-rotation of the transporting wheel 10 , runs parallel to the movement path U, is moved at the same speed as the products 28 and therefore stabilizes the latter until they are discharged to the removal arrangement 38 .
- the products 29 are retained between the free end of the carrier units 16 and the conveying belt 57 .
- the transporting wheel 10 and the supply arrangement 36 are driven in coordination with one another such that, in the receiving region 66 , a respective product 28 comes into contact with a separating element 14 and/or a gripper 12 .
- the adaptation of the rotational speed of the transporting wheel 10 and/or of the conveying speed of the supply arrangement 36 to the product spacing D in the imbricated formation S takes place using a control arrangement 104 which is not shown here (see FIG. 6 ).
- An example of the drive system is illustrated in FIG. 6 and will be described at a later stage in the text.
- FIG. 1 deals with that separating element 14 which has arrived at the lowermost point of its movement path U (paddle element 18 illustrated in bold). It is located just upstream of the location at which it engages beneath a product 28 (depicted by a blackened line).
- the paddle element 18 is in a position in which its first leg 18 a is oriented in a direction counter to the current movement direction of the paddle element, i.e. the first leg 18 a has been pivoted away from the carrier unit 16 counter to the supply direction and is oriented essentially horizontally.
- the second leg 18 b which is angled off from the first leg 18 a , is oriented downward toward the bearing surface 34 .
- leading edge 18 c On account of its convexly curved, in this case circle-arc, shape, as seen in the movement direction, its leading edge 18 c is oriented at an angle of approximately 45° in relation to the essentially horizontal surface of the products 28 .
- the leading edge 18 c is located approximately at the same level 100 as the highest points of the imbricated formation S, these highest points being formed by the trailing edges 30 .
- the leading edge 18 c of the paddle element 18 is still at a distance as seen in the supply direction F, from the edge 30 beneath which the paddle is to engage.
- the leading edge 32 of the same product 28 has not yet arrived at the stop 40 .
- That gripper 12 which is assigned to the separating element 14 in functional terms in the receiving region 66 is located downstream of the separating element 14 , as seen in the movement direction.
- the spacing between the carrier units 16 , 20 , the position of the trailing gripper jaw 24 and the length of the first leg 18 a are selected such that in the side view shown here, i.e. as seen transversely to the conveying direction F and to the movement direction of the grippers 12 and separating elements 14 , the second leg 18 b and the trailing gripper jaw 24 are aligned with one another, at least in part, and the second leg 18 b is located just upstream of the following gripper jaw 24 , but downstream of the preceding gripper jaw 22 , as seen in the supply direction F.
- the supporting surface defined by the second leg 18 b is thus partially located in the gripper mouth—as seen in side view. This relative position is maintained until the gripper 12 is closed.
- FIGS. 2 and 3 indicate the subsequent stages in the operation of receiving a product.
- the transporting wheel 10 has rotated further through approximately 10-20°.
- the paddle element 18 has pivoted relative to its carrier unit 16 through approximately 10-30° in the counter clockwise direction.
- the leading edge 18 c of the paddle element thus moves forward, as seen in the supply direction F, and downward relative to the product 28 which is to be received. This movement causes the leading edge to be inserted beneath the trailing edge 30 of the product 28 which is to be received. Since the supply arrangement 36 has also progressed, the product 28 , meanwhile, has arrived at the stop 40 by way of its leading edge 32 .
- the conveying belt 37 and thus the bearing surface 34 , is curved downward to a slight extent in the region of the stop 40 by means of suitable deflecting rollers, so that it is also the case that the products 28 run reliably against the stop 40 with the assistance of gravitational force.
- the stop 40 prevents the leading edge 32 from sliding away when the product is raised by the paddle element 18 , as the transporting wheel 10 rotates further, and aligns the relevant product at the same time.
- FIG. 3 This situation is shown in FIG. 3 .
- the transporting wheel here has rotated through a further 10-20° in relation to FIG. 2 .
- the position of the paddle element 18 relative to its carrier unit 16 has likewise changed by rotation—in this case following reversal of the direction of rotation in the clockwise direction—through a further 10-20°.
- this leaves the orientation of the paddle element 18 in space essentially unchanged in relation to FIG. 2 . Since the leading edge 32 is fixed on the stop 40 , the product 28 which is to be received slides into the V-shaped paddle element 18 .
- the paddle element 18 is pivoted in the clockwise direction and the second leg 18 b is moved away from the product 28 , in this case by being pulled out from beneath the gripped product 28 in the direction of the rotary spindle 11 (see FIG. 1 , separating elements 14 at 2 o'clock and 3 o'clock).
- the first leg 18 a in the first instance, runs parallel to the carrier unit 16 ( FIG. 2 , separating element at 4 o'clock).
- it is pivoted upstream of the carrier unit 16 , as seen in the movement direction, and, in the discharging region 68 , even encloses an angle of up to 90° therewith ( FIG.
- the first leg 18 a serves as a guide element by means of which the initially gripped and then released edge 30 of a product is deflected out of the gripper 12 and in the direction of the conveying belt of the removal arrangement 38 .
- the already deposited products 28 are supported by the free ends of the gripper jaws 22 , 24 and kept at a distance from the removal conveyor 38 , so that a product 28 which is to be deposited can be introduced beneath one which has already been deposited.
- the products are received in the receiving region 66 , retained by the grippers 12 over approximately a half-rotation of the transporting wheel 10 , and transferred to the removal arrangement 38 in the discharging region 68 , with the grippers 12 being opened in the process. Since the edge 30 which is gripped by the gripper 12 , i.e. the originally trailing edge of the product 28 , is moved beneath an already released, preceding product in the discharging region 68 , this results in an imbricated formation S′ in which the leading and trailing edges 30 , 32 and the top/bottom positions are reversed in relation to the original formation S.
- FIG. 4 shows a detail-specific view of a separating element 14 .
- the mechanism for pivoting the paddle element 18 comprises two deflecting rollers 50 , 52 , of which one is arranged on the transporting-wheel side of the carrier unit 16 and is connected in a rotationally fixed manner to a guide roller 46 .
- the other deflection roller 52 is located at the radially outer end of the carrier unit 16 and is connected to the paddle element 18 in a rotationally fixed manner, but such that it can be rotated about the spindle 26 .
- the two deflecting rollers 50 , 52 are coupled to one another by a belt 48 .
- a guide track 54 which does not rotate along, with two parallel guide surfaces 54 a , 54 b limits the movement of the guide roller 46 in the radial direction and thus forces the same, depending on the position of the transporting wheel 10 , into a certain position relative to the carrier unit 16 .
- a first position of the guide roller 46 and of the guide track 54 is indicated here by solid lines and a second position is indicated by chain-dotted lines.
- the positions of the paddle element 18 in solid lines and chain-dotted lines correspond, respectively, to these two positions of the guide roller and guide track.
- the paddle element 18 comprises a first, rectilinear leg 18 a and a second leg 18 b in the form of a circle arc.
- the paddle element 18 may have a continuous or else interrupted surface with the profile which is shown in FIG. 4 .
- a plurality of paddle elements 18 it is possible for a plurality of paddle elements 18 to be arranged one beside the other transversely to the movement direction and move synchronously, for example to the right-hand side and left-hand side of the gripper.
- FIG. 5 shows an enlarged illustration of the receiving region 66 of an apparatus according to the invention in which two respective products 28 a , 28 b are being received at the same time.
- the construction of the transporting wheel 10 and of the grippers 12 and separating elements 14 has already been described with reference to FIGS. 1-4 .
- FIG. 5 also indicates the corresponding first guide track 62 in solid lines. Furthermore, dashed lines are used to indicate the respective second guide rollers 60 of the grippers 12 and the corresponding guide track 64 thereof.
- the first guide rollers 58 together with the first guide track 62 influence the position of the trailing gripper jaw 24 relative to the movement path U.
- the second guide rollers 60 in conjunction with the second guide track 64 influence the position of the leading gripper jaw 22 (see also EP-A 1 055 620).
- the gripper jaws 22 , 24 are prestressed into the closed position, that is to say, without being influenced by the second guide track 64 , the gripper 12 is closed, and the first guide track 62 influences the position of the gripper 12 as a whole relative to the rotary path U.
- the guide track 54 for the separating elements 14 has not been illustrated.
- the products 28 are fed in a double imbricated formation S′′ in which they rest one upon the other in pairs in each case.
- two products 28 of one pair are shown in a slightly offset state in order to illustrate that errors in the formation fed can also be corrected within certain limits.
- the separating elements 14 are moved such that the leading edge 18 c of the paddle elements 18 engages in each case beneath the bottom, second product 28 of a pair of products and raises this product, together with the product 28 resting thereon, from the imbricated formation S′′. It is possible here to compensate for irregularities.
- the pairing it is also possible for the pairing to be formed initially in the receiving region 66 , by interaction with the stop 40 .
- the transporting wheel 10 is moved approximately at half the supply speed, so that in each case two individually conveyed-up products 28 come into contact with a gripper 12 .
- FIG. 6 shows the drive system of an apparatus according to the invention.
- FIG. 6 also shows an advantageous variant of the invention in which the transporting wheel can be displaced in and counter to the supply direction F in order to compensate for irregularities, e.g. a gap 84 , in a supplied imbricated formation S or to form a gap in the outgoing imbricated formation S′.
- Gap formation here is understood as meaning the transfer of products 28 into the grippers 12 such that at least one gripper 12 remains specifically empty.
- Compensating for irregularities is understood as meaning the operation which prevents one or more grippers 12 from remaining empty despite an irregularity.
- This system comprises a first drive 74 , e.g. a motor, for the transporting wheel 10 .
- the motive power is transmitted to the transporting wheel 10 by means of a first toothed belt 72 and a gearwheel 70 , which is connected concentrically, and thus rigidly, in relation to the transporting wheel 10 .
- the toothed belt 72 here runs over a plurality of deflecting rollers 73 , 73 ′.
- the toothed belt 72 also drives the supporting conveyor 56 and the removal arrangement 38 (the latter not being illustrated).
- the drive 74 also activates the supply arrangement 36 , and controls the same, via a mechanical or electronic connection 76 .
- a gear mechanism which ensures a defined, possibly adjustable transmission ratio is located between the drive 74 and the supply arrangement 36 .
- the transporting wheel 10 can be displaced in and counter to the supply direction F.
- it is arranged, for this purpose, on a carriage 78 which can be displaced along an in this case horizontally running rail 86 between two end positions defined by stops 88 , 90 .
- the following elements are mounted on the carriage 78 : transporting wheel 10 with the carrier units 16 , 20 for the separating elements 14 and the grippers 12 , respectively; stop 40 , it being possible to adjust the position of the latter relative to the carriage within the region defined by the end positions 42 , 44 ; supporting conveyor 56 ; roller 39 at the start of the removal arrangement 38 ; deflecting rollers 73 ′ for the toothed belt 72 ; supporting-type conveying belt 102 .
- a further drive 80 is provided for the purpose of displacing the carriage 78 .
- the motive power is transmitted by means of a second toothed belt 81 .
- This toothed belt 81 is connected rigidly to the carriage 78 by a coupling element 82 and runs in the supply direction F in the region of the carriage 78 .
- the drive 80 is capable of moving the entire carriage 78 , and the components coupled thereto, very quickly and counter to the supply direction F.
- the speed here is preferably a multiple higher than the supply speed, so that a more or less instantaneous change in position of the carriage 78 can be assumed. Since the gearwheel 70 rolls on the toothed belt 72 when the carriage 78 is displaced, the transporting wheel is driven at increased speeds during displacement in the supply direction F and at reduced speed (or is even at a standstill) during displacement in the opposite direction.
- the carriage and the components connected thereto are shown in two different positions in FIG. 6 .
- the rearward position, as seen in the supply direction F, is illustrated in solid lines.
- a position in front of this, as seen in the supply direction F, is shown by chain-dotted lines.
- a sensing arrangement 92 is capable of detecting irregularities in the incoming formation S and of indicating these irregularities to a control arrangement 104 which, in turn, controls the drives 74 , 80 .
- the sensing arrangement 92 comprises, for example, a light barrier in conjunction with a further optical sensor.
- the light barrier serves for identifying the leading edge 32 of a product 28 downstream of an actual gap in the product stream.
- the further sensor serves for identifying the trailing edges 30 of the products 28 .
- the carriage 78 is displaced counter to the supply direction F in order to compensate for this. In the event of too small a spacing, or in order to create a gap, the carriage 78 is displaced in the supply direction F.
- FIGS. 7 and 8 show an advantageous development of the apparatus according to FIG. 6 in two different positions during the operation of closing a gap 84 in the incoming imbricated formation S.
- FIGS. 7 and 8 show an advantageous development of the apparatus according to FIG. 6 in two different positions during the operation of closing a gap 84 in the incoming imbricated formation S.
- the transporting wheel 10 can be displaced, together with the stop 40 , in and counter to the supply direction F.
- the supporting-type conveying belt 102 is displaced therewith in order to maintain a defined spacing between the bearing means 34 and the rotary path U.
- the conveying belt 37 of the supply arrangement 36 is fixed in place here (see also FIG. 6 ).
- the guide track 54 for the guide rollers 46 of the separating elements 14 can be pivoted about the rotary spindle 11 of the transporting wheel 10 .
- A, for example, hydraulically or pneumatically operating drive arrangement 94 is provided in order to execute the pivoting movement.
- This drive arrangement moves a piston rod 96 , which is mounted in a pivotable manner on the guide track 54 itself or on a lever arm 98 which is connected rigidly thereto. Extending the piston rod 96 by a certain amount causes the guide track 54 to be rotated through an angle a. Without the drive arrangement 94 being actuated, there is no change in the orientation of the guide track 54 in space.
- a gap 84 in the incoming imbricated formation S is compensated for as follows: the optical sensing arrangement 92 , which is shown in FIG. 6 , indicates to the control arrangement 104 that the spacing between two trailing edges 30 differs from the desired spacing D in the incoming imbricated formation S. In the present case, the spacing measured is equal to approximately double the desired spacing D.
- FIG. 7 shows the state in which a paddle element 18 has already engaged beneath the product 28 preceding the gap 84 , and has lifted up this product from the product located beneath it. The position of the paddle elements 18 in the transfer region 66 corresponds to a situation which is present just prior to the situation shown in FIG. 3 .
- the gap 84 causes the paddle element 18 of the next separating element 14 to be located upstream, as seen in the supply direction F, of the edge 30 of the next product 28 which is to be gripped ( FIG. 7 ).
- the transporting wheel 10 and the stop 40 together with the supporting-type conveying belt 102 , are displaced by the carriage 78 ( FIG. 6 ) by a distance d counter to the supply direction F. This situation is shown in FIG. 8 .
- the distance d here is somewhat smaller than the desired imbrication spacing D and has been selected such that the spacing between the trailing edges 30 of the already gripped product and of the following product corresponds essentially to the imbrication spacing D. Since the stop 40 is moved relative to the stationary conveying belt 37 of the supply arrangement 36 , the products already butting against it, in particular the product beneath which the paddle element 18 has already engaged, are displaced relative to the products which are not yet butting against the stop, this resulting in the gap 84 being closed. As far as the supply speed is concerned, the displacement d is somewhat smaller than the imbrication spacing D.
- the pivotable guide track 54 As is illustrated in FIG. 7 , the leading edge 18 c of the separating element 14 which follows that separating element which has already engaged beneath a product 28 is located only a little way above the level 100 of the highest points of the incoming imbricated formation S. The leading edge 18 c is thus at virtually the same height as the trailing edges 30 of the products 28 . As is illustrated in FIGS. 1-3 , the guide track 54 is shaped such that, on account of the pivoting movement of the paddle element about the spindle 26 , the leading edge 18 c is lowered further to beneath the level 100 as the transporting wheel 10 continues rotating.
- Displacement of the transporting wheel 10 counter to the supply direction F thus gives rise to the problem of the product 28 which is to be gripped having the leading edge 18 c of the paddle element 18 coming into contact with it along its exposed product surface. It is thus possible for the product to be damaged during displacement of the transporting wheel 10 , for the displacement movement to be blocked or for the pivoting mechanism for the paddle elements 18 to be damaged.
- the pivoting of the guide track 54 predominantly serves to lower the leading edge of the paddle element 18 , even in the event of irregularities 84 in the incoming imbricated formation S, in a specific manner downstream of the product edge 30 beneath which the paddle element is to engage, and to avoid contact with the product surface.
- the second legs 18 b of the paddle elements 18 are elastic at least in a direction oriented away from the product, and thus cannot damage the product even in the event of contact, it is also possible to dispense with the pivotable guide track 54 .
- Such elasticity which simultaneously allows sufficient stability for engaging beneath a product, can be achieved by a paddle element 18 which is constructed from lamellae transversely to the supply direction F and is flexible in the direction of the pivot spindle 26 and rigid in the opposite direction.
- the carriage 78 In order to form a gap, the carriage 78 is displaced in the supply direction F. A gripper 12 in the receiving region 66 first clutches at thin air, which results in the gap being formed in the outgoing formation S′. The carriage 78 is then pushed back again into the starting position. There is no need for the guide track 54 to be adjusted in this case.
- the displacement mechanism shown in FIG. 6 and the adjustable guide track shown in FIGS. 7 and 8 can also be used for apparatuses which operate with conventional separating elements, in particular for an apparatus according to EP-A 1 055 620.
Abstract
An apparatus for receiving and conveying sheet-like products (28), in particular printed products. A plurality of grippers (12) which are moved along a gripper movement path and a plurality of separating elements (14), which are separate from the grippers, are moved along a separating element movement path. The separating elements (14) each comprise at least one paddle element (18) which, in a receiving region (66), is capable of engaging beneath, and raising, an edge (30) of a product (28) which rests, at least in part, on a further product or on a bearing surface (34). The product (28) can then be gripped by a gripper (14). The paddle elements (18) have the advantage that it is possible to dispense with conventional suction mechanisms for raising the products (28), the design of such a receiving apparatus being simplified as a result.
Description
- The present invention relates to an apparatus for receiving and conveying sheet-like products, such as folded printed products.
- An apparatus of the generic type in the form of a receiving and transfer wheel is known from EP-A 1 055 620 and corresponding U.S. Pat. No. 6,554,268. It comprises a plurality of grippers and a plurality of separating elements in the form of suction mechanisms, which are arranged on a common transporting wheel. Each gripper is assigned a separating element here. By means of the separating elements, a product which is located in a receiving region beneath the transporting wheel can be raised, at least in part, by suction attachments such that it can be gripped by a gripper. The product which is to be received is located in a stationary stack or in a moving imbricated formation and rests directly on a bearing means or, at least in part, on further products. The product is lifted up completely by virtue of the transporting wheel being rotated and, following approximately half a revolution of the transporting wheel, is released again from the corresponding gripper and deposited in an imbricated formation on a belt conveyor.
- Suction mechanisms as separating elements have various disadvantages: in the first instance, the necessary suction-air feed and control means complicates the design and operation of the receiving and transfer wheel. Furthermore, a suction mechanism is only suitable to a limited extent, if at all, for lifting up relatively thick or stiff products or ones provided with loose inserts, e.g. newspapers, periodicals or catalogues, and for lifting up a plurality of products at the same time, in particular in order to form mini-stacks.
- EP-A 1 364 900 and corresponding U.S. Pat. No. 7,150,454 discloses a receiving apparatus which manages without separating elements being provided in addition to grippers. The grippers themselves can be moved relative to the products which are to be received, such that a gripper jaw engages beneath, and raises, one or more products. Closure of the gripper then allows the product or the products to be gripped, and transported away, by the same gripper. It has been found in practice that the action of one of the gripper jaws engaging beneath a product can vastly limit the flexibility of the apparatus.
- The fact that, in particular, printed products are often conveyed in an imbricated formation gives rise to the problem of it being necessary to compensate for irregularities in the product spacing. For this purpose, DE 196 01 693 discloses the practice of guiding the imbricated formation as a whole about a deflecting wheel which can be displaced relative to a supply and removal arrangement. It is not possible here to separate the products or change the position of the products within the imbricated formation.
- The object of the invention is thus further to develop an apparatus of the type mentioned in the introduction such that there is greater flexibility in respect of the mechanical properties of the products which are to be received.
- According to the invention, the separating elements each comprise at least one paddle element which is capable of engaging beneath, and raising, an edge of a product which rests, at least in part, on a further product or on a bearing surface. Suction mechanisms are not used; the product is raised solely by the paddle element as the product rests on a further product, e.g. in an imbricated formation or in a stack, or on a bearing surface. Engaging beneath is understood as meaning that the paddle element is pushed in between the product which is to be raised and the product located therebeneath, which is not to be raised, or the bearing surface. The separating element is independent of the gripper in the sense that either it is separated mechanically therefrom or it is mounted on the gripper but can be moved relative to the gripper jaws.
- The paddle element or its free leading edge is lowered, in the first instance, downstream of the product edge which is to be raised, as seen in the movement direction, and is then moved relative to the product at increased speed. In the process, it engages beneath the trailing edge of the product which is to be raised, and thus separates the latter from the rest of the products or from the bearing means. Relative movement of the paddle element in the upward direction causes the trailing edge of the product to be raised and moved into a position in which it is gripped by a gripper. This means that a product edge is introduced into the open gripper mouth by the paddle element.
- The function of the paddle element is preferably assisted by a stop which is arranged in a stationary manner in relation to the movement path of the paddle elements. The stop forms a resistance for the leading product edge. As the paddle elements move along their movement path, the trailing edge is thus pushed further along the paddle element and/or deeper into the gripper mouth.
- The separating element and gripper, and also the corresponding movement paths, are independent of one another in principle. At least in the receiving region, however, a separating element is assigned in functional terms to each gripper. Or this purpose, the movement paths, at least in the receiving region, are parallel to one another and the speeds are coordinated with one another.
- The paddle elements enclose or preferably bound a supporting surface which, during the receiving process, supports, at least in part, the product edge or surface which is to be received. The paddle element is moved such that, at least in the receiving region, the supporting surface projects, from the spatial region over which the grippers pass as they move, in the direction of the products which are to be received. Upstream and downstream of the receiving region, the supporting surface is preferably located within this spatial region. The paddle elements are moved relative to the grippers such that in the receiving region—as seen in side view—the supporting surface opens out into a gripper mouth and/or is located, at least in part, therein. The supporting surface is preferably curved convexly in relation to the movement direction of the separating elements. This assists the operation of engaging beneath, and raising, the products and ensures careful treatment of the products.
- The above described movements can be realized in dependence on one another by suitable selection of the shape of the movement paths of the grippers, of the separating elements and, if appropriate, of the products which are to be received and by selection of the speeds. The paddle element can preferably also be moved, in particular pivoted, relative to its movement path in order to realize in a straightforward manner the above described movement toward, and engagement beneath, the product which is to be received. The separating elements and grippers can then also be conveyed along the same movement path and at the same speed.
- The apparatus according to the invention is advantageously used in order to rearrange printed products which arrive in an imbricated formation. For example unwinding from a roll used for interim storage purposes often gives rise to an imbricated formation which is disadvantageous for further processing, e.g. has the folded edge trailing. This formation therefore has to be converted into a different one, e.g. with the folded edge leading. In order to achieve this, the products are conveyed to the receiving region by means of a supply arrangement, in particular in an imbricated formation, received by the grippers, e.g. along the trailing edge, and transferred to a removal arrangement, in particular a belt conveyor, in a discharging region with the formation being changed in the process, e.g. with the gripped edge in front. The lower leading product edges in an incoming imbricated formation thus become upper trailing edges in an outgoing imbricated formation. In an advantageous development of the invention, the supply arrangement and the removal arrangement form constituent parts of the apparatus according to the invention.
- The products may also be supplied individually rather than in an imbricated formation.
- In conjunction with the rearrangement of the products, it is advantageous if the apparatus according to the invention has means in order to compensate for irregularities or gaps in the incoming formation, in order that a regular formation which is discharged at timed intervals is established during transfer to the removal arrangement. Equally, it may be desirable specifically to introduce gaps into the outgoing formation and/or to change the product spacing in the outgoing formation.
- In order to achieve this, in a further advantageous development of the invention, the movement paths of the grippers and of the separating elements, in their entirety, may thus be displaced in or counter to the conveying direction of the supply arrangement. A stop which is preferably present is likewise moved along therewith. For this purpose, the grippers and separating elements are arranged on a preferably common transporting mechanism, in particular a transporting wheel, which is mounted on a moveable carriage. In the case of too large a product spacing—for example if a product is missing—the transporting mechanism moves toward the product which is to be received and thus reduces the effective product spacing. If a product spacing is to be increased, movement takes place in the opposite direction.
- The separating elements can preferably be activated independently of the grippers, which is advantageous, in particular, in conjunction with a displaceable transporting mechanism. Their activation can then preferably be adapted in order that, even in the event of the transporting mechanism being displaced, the movement for engaging beneath, and lifting up, a product can be carried out at the correct location relative to the moving product.
- The above described displacement mechanism and the adjustable guide track can also advantageously be used for apparatuses according to the preamble of claim 1 which operate with conventional separating elements instead of paddle elements.
- Examples of the invention are described hereinbelow and illustrated in the drawings, in which, purely schematically:
-
FIG. 1 shows an apparatus according to the invention having a rotatable transporting mechanism for grippers and separating elements and having a supply arrangement and a removal arrangement; -
FIGS. 2 and 3 show the apparatus according toFIG. 1 at two further points in time during the operations of receiving and discharging individual products; -
FIG. 4 shows a separating element with a paddle element in two different positions; -
FIG. 5 shows the apparatus according toFIG. 1 during the operation of receiving two respective products; -
FIG. 6 shows an overview of the apparatus according toFIG. 1 , including the drive system thereof, with a displaceable transporting mechanism in two positions; and -
FIGS. 7 and 8 show a view, in detail form, of the apparatus according toFIG. 1 at different points in time during the operation of closing a gap in an incoming formation of products. -
FIG. 1 shows a side view of an apparatus 1 according to the invention with a transporting mechanism which can be rotated about an in this case horizontally runningspindle 11 and is in the form of a transportingwheel 10, on which a plurality ofgrippers 12 and separatingelements 14 are arranged in each case. By virtue of the transportingwheel 10 being rotated in the arrow direction, these grippers and separating elements are moved in the counterclockwise direction along an essentially circular gripper and separating-element movement path U. The construction of the transportingwheel 10 and of the grippers corresponds essentially to the apparatus described in EP-A 1 055 620, to which reference is made in addition. The separatingelements 14 are illustrated in detail inFIG. 4 . - The transporting
wheel 10 is coupled togrippers 12 and separatingelements 14 at equidistant spacings along its circumference. The number ofgrippers 12 is equal to the number of separatingelements 14. The separatingelements 14 each comprise acarrier unit 16, which projects radially outward from the transportingwheel 10 and is coupled rigidly to the transportingwheel 10. Thecarrier unit 16 projects beyond thegrippers 12 to a slight extent in the radial direction. - A
paddle element 18 is arranged at the radially outer end of thecarrier unit 16 such that it can be pivoted about aspindle 26 running parallel to therotary spindle 11. Thepaddle element 18 comprises twolegs first leg 18 ais connected to thecarrier unit 16 at one end such that it can be pivoted about thespindle 26. At its other end, it is connected to asecond leg 18 b and encloses an angle of approximately 90° with a tangent to this second leg. Thesecond leg 18 b is curved, is used to engage beneath theproducts 28 by way of its leadingedge 18 c, and serves as part of the supporting surface for the products. Thepaddle element 18 can be pivoted at least such that its leadingedge 18 c, in a first position, is located radially within the spatial region over which thegrippers 12 pass and, in a second position, is located radially outside this region. The leadingedge 18 c can thus be moved toward theproducts 28. - The
paddle elements 18 here can be pivoted through an angle of 360° about thespindle 26. In the side view shown, they are located in planes upstream or downstream of thegripper 12. For eachgripper 12, it is preferably the case that twopaddle elements 18 are located laterally in each case in relation to the gripper 12 (not visible in this view). The precise design of the separatingelements 14 and of the pivoting mechanism will be described hereinbelow with reference toFIG. 4 . - Like the separating
elements 14, thegrippers 12 also have a base orcarrier unit 20, by means of which they are mounted on the transportingwheel 10. They also comprise twogripper jaws wheel 10. Thegripper jaws gripper jaws gripper 12 to be pivoted as a whole relative to the movement path U and/or about the gripper spindle relative to thecarrier unit 20. The above described movements are realized by way of twoguide tracks guide tracks respective guide roller 58, 60 (seeFIG. 5 ), these guide rollers each being assigned to agripper jaw - The movement path U is understood hereinbelow as meaning the movement path of the
respective carrier units elements 14 andgrippers 12. It is independent of the movements of thepaddle elements 18 and of thegripper jaws grippers 12 and separatingelements 14 along the movement path. - As an alternative to being arranged on a common transporting
wheel 10, it is also possible to provide two different transporting wheels. In addition,grippers 12 and separatingelements 14 may also be moved in some other way, e.g. by being coupled to a conveying mechanism—which is also common to both—or individually along suitably shaped guide rails. It is not imperative for the gripper movement path to run congruently in relation to the separation-element movement path; it is likewise possible to select a non-circular path. For example, the movement path in the discharging region may be U-shaped, as in the case of the apparatus according to EP-A 1 364 900. Instead of purely mechanical activation of the grippers and of the separating elements, electronic control is also possible in order to achieve the abovementioned movements along, and relative to, the movement path. - Beneath the transporting
wheel 10,products 28 which are to be received are arranged on a bearingsurface 34. The bearingsurface 34, in the present case, is formed by a conveyingbelt 37 of asupply arrangement 36 in the form of a belt conveyor. The region between the transportingwheel 10 and the bearingsurface 34, in which the products are received, is referred to as receivingregion 66. A supporting-type conveying belt 102, of which the top strand is located in the plane of the conveyingbelt 37 of thebelt conveyor 36, serves—in particular in the case of a displaceable transportingwheel 10—for preventing the conveyingbelt 37 from sagging and for producing a defined spacing between the rotary path U and the bearingsurface 34. - The
products 28, in the present case, are located in an imbricated formation S on the conveyingbelt 37, which moves the products in an in this case horizontal supply direction F. In the transfer region, the supply direction F runs parallel and/or tangentially to the movement path U. Thepaddle elements 18 andgrippers 12 are moved, over the greatest possible distance, more or less parallel to theproducts 28 which are to be received, in order that the products are received reliably and carefully. - A
removal arrangement 38, to which theproducts 28 are transferred, is located on that side of the transportingwheel 10 which is located opposite the receivingregion 66. The region between the transportingwheel 10 and theremoval arrangement 38 is referred to as the dischargingregion 68. Theremoval arrangement 38, in the present case, is likewise a belt conveyor, the product being deposited on the conveying belt thereof in an imbricated formation S′ and being conveyed away in a removal direction F′, which runs counter to the original supply direction F. In the present case, the folded edges of theproducts 28 in the outgoing imbricated formation S′ are located beneath a preceding product and at the front, as seen in the removal direction F′, whereas, in the incoming imbricated formation S, they are oriented to the rear, as seen in the supply direction F, and rest on a following product. - Located downstream of the transporting
wheel 10, as seen in the supply direction F, is astop 40 against which theleading edges 32 of theproduct 28 strike during the receiving process. For adaptation to different product lengths, thestop 40 can be displaced between twoend positions edge 30 of a product, as seen in the supply direction F, always to be located in a defined position in relation to the movement path U, in order that apaddle element 18 can engage beneath it. - Just upstream of the
stop 40, as seen in the supply direction F, the bearingsurface 34, in addition to the conveyingbelt 37, is formed by a supporting-type conveying belt 102. The latter is in, for example, a number of parts and is arranged laterally in relation to the conveyingbelt 37. - In order for the
products 28 retained by thegrippers 12 to be stabilized as the transportingwheel 10 rotates, a supportingconveyor 56 is located in the immediate vicinity of the transportingwheel 10. This supporting conveyor, in the present case, has a conveyingbelt 57 which acts as a pressure-exerting belt and, over approximately a quarter-rotation of the transportingwheel 10, runs parallel to the movement path U, is moved at the same speed as theproducts 28 and therefore stabilizes the latter until they are discharged to theremoval arrangement 38. The products 29 are retained between the free end of thecarrier units 16 and the conveyingbelt 57. - The functioning of the apparatus during the operation of receiving a product will be explained hereinbelow with reference to FIGS. 1-3:
- The transporting
wheel 10 and thesupply arrangement 36 are driven in coordination with one another such that, in the receivingregion 66, arespective product 28 comes into contact with a separatingelement 14 and/or agripper 12. The adaptation of the rotational speed of the transportingwheel 10 and/or of the conveying speed of thesupply arrangement 36 to the product spacing D in the imbricated formation S takes place using acontrol arrangement 104 which is not shown here (seeFIG. 6 ). An example of the drive system is illustrated inFIG. 6 and will be described at a later stage in the text. -
FIG. 1 deals with that separatingelement 14 which has arrived at the lowermost point of its movement path U (paddleelement 18 illustrated in bold). It is located just upstream of the location at which it engages beneath a product 28 (depicted by a blackened line). Thepaddle element 18 is in a position in which itsfirst leg 18 a is oriented in a direction counter to the current movement direction of the paddle element, i.e. thefirst leg 18 a has been pivoted away from thecarrier unit 16 counter to the supply direction and is oriented essentially horizontally. Thesecond leg 18 b, which is angled off from thefirst leg 18 a, is oriented downward toward the bearingsurface 34. On account of its convexly curved, in this case circle-arc, shape, as seen in the movement direction, its leadingedge 18 c is oriented at an angle of approximately 45° in relation to the essentially horizontal surface of theproducts 28. The leadingedge 18 c is located approximately at thesame level 100 as the highest points of the imbricated formation S, these highest points being formed by the trailingedges 30. InFIG. 1 , the leadingedge 18 c of thepaddle element 18 is still at a distance as seen in the supply direction F, from theedge 30 beneath which the paddle is to engage. The leadingedge 32 of thesame product 28 has not yet arrived at thestop 40. - That
gripper 12 which is assigned to the separatingelement 14 in functional terms in the receivingregion 66 is located downstream of the separatingelement 14, as seen in the movement direction. However, the spacing between thecarrier units gripper jaw 24 and the length of thefirst leg 18 a are selected such that in the side view shown here, i.e. as seen transversely to the conveying direction F and to the movement direction of thegrippers 12 and separatingelements 14, thesecond leg 18 b and the trailinggripper jaw 24 are aligned with one another, at least in part, and thesecond leg 18 b is located just upstream of the followinggripper jaw 24, but downstream of the precedinggripper jaw 22, as seen in the supply direction F. The supporting surface defined by thesecond leg 18 b is thus partially located in the gripper mouth—as seen in side view. This relative position is maintained until thegripper 12 is closed. -
FIGS. 2 and 3 indicate the subsequent stages in the operation of receiving a product. InFIG. 2 , the transportingwheel 10 has rotated further through approximately 10-20°. At the same time, thepaddle element 18 has pivoted relative to itscarrier unit 16 through approximately 10-30° in the counter clockwise direction. The leadingedge 18 c of the paddle element thus moves forward, as seen in the supply direction F, and downward relative to theproduct 28 which is to be received. This movement causes the leading edge to be inserted beneath the trailingedge 30 of theproduct 28 which is to be received. Since thesupply arrangement 36 has also progressed, theproduct 28, meanwhile, has arrived at thestop 40 by way of its leadingedge 32. The conveyingbelt 37, and thus the bearingsurface 34, is curved downward to a slight extent in the region of thestop 40 by means of suitable deflecting rollers, so that it is also the case that theproducts 28 run reliably against thestop 40 with the assistance of gravitational force. Thestop 40 prevents the leadingedge 32 from sliding away when the product is raised by thepaddle element 18, as the transportingwheel 10 rotates further, and aligns the relevant product at the same time. - This situation is shown in
FIG. 3 . The transporting wheel here has rotated through a further 10-20° in relation toFIG. 2 . The position of thepaddle element 18 relative to itscarrier unit 16 has likewise changed by rotation—in this case following reversal of the direction of rotation in the clockwise direction—through a further 10-20°. With the exception of a displacement in the supply direction F and upward, this leaves the orientation of thepaddle element 18 in space essentially unchanged in relation toFIG. 2 . Since the leadingedge 32 is fixed on thestop 40, theproduct 28 which is to be received slides into the V-shapedpaddle element 18. Since thesecond leg 18 b and the trailing grippingjaw 24 are still aligned with one another, the trailingedge 30 of theproduct 28 thus moves into a position in which it can be gripped by virtue of thegripper jaws gripper 12 being closed. The situation just prior to the closure of the gripper can be gathered fromFIG. 1 by looking at the gripper which precedes the gripper described above. - As soon as the product has been gripped by a
gripper 12, thepaddle element 18 is pivoted in the clockwise direction and thesecond leg 18 b is moved away from theproduct 28, in this case by being pulled out from beneath the grippedproduct 28 in the direction of the rotary spindle 11 (seeFIG. 1 , separatingelements 14 at 2 o'clock and 3 o'clock). Thefirst leg 18 a, in the first instance, runs parallel to the carrier unit 16 (FIG. 2 , separating element at 4 o'clock). As operation continues, it is pivoted upstream of thecarrier unit 16, as seen in the movement direction, and, in the dischargingregion 68, even encloses an angle of up to 90° therewith (FIG. 1 , separating element at 12 o'clock). In this way, thefirst leg 18 a, passes into the region of a precedinggripper 12. This can be gathered fromFIGS. 1-3 by looking at the two separatingelements 14 which have arrived at the highest point of the movement path U. Prior to, and during, transfer to theremoval arrangement 38, thepaddle element 18 is thus assigned to the precedinggripper 12. Thefirst leg 18 a here serves as a guide element by means of which the initially gripped and then releasededge 30 of a product is deflected out of thegripper 12 and in the direction of the conveying belt of theremoval arrangement 38. Also provided are two supportingbrackets 39 which are arranged laterally in relation to the conveyingbelt 37 of theremoval arrangement 38 and to the transportingwheel 10 and perform the same function. Together with the above described supportingconveyor 56 and the radiallyouter surfaces 16 a of thecarrier units 16, theproducts 28 are thus transferred with guidance, and in an ordered manner, once thegrippers 12 have been opened. The already depositedproducts 28 are supported by the free ends of thegripper jaws removal conveyor 38, so that aproduct 28 which is to be deposited can be introduced beneath one which has already been deposited. - Overall, the products are received in the receiving
region 66, retained by thegrippers 12 over approximately a half-rotation of the transportingwheel 10, and transferred to theremoval arrangement 38 in the dischargingregion 68, with thegrippers 12 being opened in the process. Since theedge 30 which is gripped by thegripper 12, i.e. the originally trailing edge of theproduct 28, is moved beneath an already released, preceding product in the dischargingregion 68, this results in an imbricated formation S′ in which the leading and trailingedges -
FIG. 4 shows a detail-specific view of a separatingelement 14. The mechanism for pivoting thepaddle element 18 comprises two deflectingrollers carrier unit 16 and is connected in a rotationally fixed manner to aguide roller 46. Theother deflection roller 52 is located at the radially outer end of thecarrier unit 16 and is connected to thepaddle element 18 in a rotationally fixed manner, but such that it can be rotated about thespindle 26. The two deflectingrollers belt 48. Aguide track 54, which does not rotate along, with two parallel guide surfaces 54 a, 54 b limits the movement of theguide roller 46 in the radial direction and thus forces the same, depending on the position of the transportingwheel 10, into a certain position relative to thecarrier unit 16. By way of example, a first position of theguide roller 46 and of theguide track 54 is indicated here by solid lines and a second position is indicated by chain-dotted lines. The positions of thepaddle element 18 in solid lines and chain-dotted lines correspond, respectively, to these two positions of the guide roller and guide track. Upon rotation of the transportingwheel 10, theguide roller 46 is pivoted relative to thecarrier unit 16 and the deflectingroller 50 is rotated, which is converted into a rotary movement of the deflectingroller 52 and thus of thepaddle element 18. - As seen in profile, the
paddle element 18 comprises a first,rectilinear leg 18 a and asecond leg 18 b in the form of a circle arc. As seen in the movement direction, thepaddle element 18 may have a continuous or else interrupted surface with the profile which is shown inFIG. 4 . Furthermore, it is possible for a plurality ofpaddle elements 18 to be arranged one beside the other transversely to the movement direction and move synchronously, for example to the right-hand side and left-hand side of the gripper. -
FIG. 5 shows an enlarged illustration of the receivingregion 66 of an apparatus according to the invention in which tworespective products wheel 10 and of thegrippers 12 and separatingelements 14 has already been described with reference toFIGS. 1-4 . In addition to thefirst guide roller 58, which can already be seen inFIGS. 1-3 , for the purpose of controlling the position of thegrippers 12 relative to the movement path U,FIG. 5 also indicates the correspondingfirst guide track 62 in solid lines. Furthermore, dashed lines are used to indicate the respectivesecond guide rollers 60 of thegrippers 12 and thecorresponding guide track 64 thereof. Thefirst guide rollers 58 together with thefirst guide track 62 influence the position of the trailinggripper jaw 24 relative to the movement path U. Thesecond guide rollers 60 in conjunction with thesecond guide track 64 influence the position of the leading gripper jaw 22 (see also EP-A 1 055 620). Thegripper jaws second guide track 64, thegripper 12 is closed, and thefirst guide track 62 influences the position of thegripper 12 as a whole relative to the rotary path U. For reasons of clarity, theguide track 54 for the separatingelements 14 has not been illustrated. - The
products 28 are fed in a double imbricated formation S″ in which they rest one upon the other in pairs in each case. In the present case, twoproducts 28 of one pair are shown in a slightly offset state in order to illustrate that errors in the formation fed can also be corrected within certain limits. - For receiving
products 28 in pairs, the separatingelements 14 are moved such that the leadingedge 18 c of thepaddle elements 18 engages in each case beneath the bottom,second product 28 of a pair of products and raises this product, together with theproduct 28 resting thereon, from the imbricated formation S″. It is possible here to compensate for irregularities. - As an alternative, it is also possible for the pairing to be formed initially in the receiving
region 66, by interaction with thestop 40. In this case, the transportingwheel 10 is moved approximately at half the supply speed, so that in each case two individually conveyed-upproducts 28 come into contact with agripper 12. -
FIG. 6 shows the drive system of an apparatus according to the invention.FIG. 6 also shows an advantageous variant of the invention in which the transporting wheel can be displaced in and counter to the supply direction F in order to compensate for irregularities, e.g. agap 84, in a supplied imbricated formation S or to form a gap in the outgoing imbricated formation S′. Gap formation here is understood as meaning the transfer ofproducts 28 into thegrippers 12 such that at least onegripper 12 remains specifically empty. Compensating for irregularities is understood as meaning the operation which prevents one ormore grippers 12 from remaining empty despite an irregularity. - First of all the drive system used in the basic version of the invention will be described hereinbelow. This system comprises a
first drive 74, e.g. a motor, for the transportingwheel 10. The motive power is transmitted to the transportingwheel 10 by means of a firsttoothed belt 72 and agearwheel 70, which is connected concentrically, and thus rigidly, in relation to the transportingwheel 10. Thetoothed belt 72 here runs over a plurality of deflectingrollers toothed belt 72 also drives the supportingconveyor 56 and the removal arrangement 38 (the latter not being illustrated). Thedrive 74 also activates thesupply arrangement 36, and controls the same, via a mechanical orelectronic connection 76. For example, a gear mechanism which ensures a defined, possibly adjustable transmission ratio is located between thedrive 74 and thesupply arrangement 36. - According to a preferred further development of the invention, the transporting
wheel 10 can be displaced in and counter to the supply direction F. In the present case, it is arranged, for this purpose, on acarriage 78 which can be displaced along an in this case horizontally runningrail 86 between two end positions defined bystops 88, 90. The following elements are mounted on the carriage 78: transportingwheel 10 with thecarrier units elements 14 and thegrippers 12, respectively; stop 40, it being possible to adjust the position of the latter relative to the carriage within the region defined by the end positions 42, 44; supportingconveyor 56;roller 39 at the start of theremoval arrangement 38; deflectingrollers 73′ for thetoothed belt 72; supporting-type conveying belt 102. - A
further drive 80 is provided for the purpose of displacing thecarriage 78. The motive power is transmitted by means of a secondtoothed belt 81. Thistoothed belt 81 is connected rigidly to thecarriage 78 by acoupling element 82 and runs in the supply direction F in the region of thecarriage 78. Thedrive 80 is capable of moving theentire carriage 78, and the components coupled thereto, very quickly and counter to the supply direction F. The speed here is preferably a multiple higher than the supply speed, so that a more or less instantaneous change in position of thecarriage 78 can be assumed. Since thegearwheel 70 rolls on thetoothed belt 72 when thecarriage 78 is displaced, the transporting wheel is driven at increased speeds during displacement in the supply direction F and at reduced speed (or is even at a standstill) during displacement in the opposite direction. - The carriage and the components connected thereto are shown in two different positions in
FIG. 6 . The rearward position, as seen in the supply direction F, is illustrated in solid lines. A position in front of this, as seen in the supply direction F, is shown by chain-dotted lines. - A
sensing arrangement 92 is capable of detecting irregularities in the incoming formation S and of indicating these irregularities to acontrol arrangement 104 which, in turn, controls thedrives sensing arrangement 92 comprises, for example, a light barrier in conjunction with a further optical sensor. The light barrier serves for identifying the leadingedge 32 of aproduct 28 downstream of an actual gap in the product stream. The further sensor serves for identifying the trailingedges 30 of theproducts 28. These signals are processed and give information about the regularity of the incoming formation S and, in particular, about the spacing D between the trailingedges 30. If this spacing lies outside a predeterminable tolerance range, thecontrol arrangement 104 causes thecarriage 78 to be displaced in or counter to the supply direction F. If too large a spacing, e.g. agap 84, is determined, thecarriage 78 is displaced counter to the supply direction F in order to compensate for this. In the event of too small a spacing, or in order to create a gap, thecarriage 78 is displaced in the supply direction F. -
FIGS. 7 and 8 show an advantageous development of the apparatus according toFIG. 6 in two different positions during the operation of closing agap 84 in the incoming imbricated formation S. For reasons of clarity, only three separatingelements 14 and twogrippers 12 have been illustrated in the receivingregion 66. Furthermore, only theguide track 54 for the separatingelements 14 is shown and the transportingwheel 10 is only indicated. As has already been described in conjunction withFIG. 6 , the transportingwheel 10 can be displaced, together with thestop 40, in and counter to the supply direction F. The supporting-type conveying belt 102 is displaced therewith in order to maintain a defined spacing between the bearing means 34 and the rotary path U. The conveyingbelt 37 of thesupply arrangement 36 is fixed in place here (see alsoFIG. 6 ). - In the present case, the
guide track 54 for theguide rollers 46 of the separatingelements 14 can be pivoted about therotary spindle 11 of the transportingwheel 10. A, for example, hydraulically or pneumaticallyoperating drive arrangement 94 is provided in order to execute the pivoting movement. This drive arrangement moves apiston rod 96, which is mounted in a pivotable manner on theguide track 54 itself or on alever arm 98 which is connected rigidly thereto. Extending thepiston rod 96 by a certain amount causes theguide track 54 to be rotated through an angle a. Without thedrive arrangement 94 being actuated, there is no change in the orientation of theguide track 54 in space. - A
gap 84 in the incoming imbricated formation S is compensated for as follows: theoptical sensing arrangement 92, which is shown inFIG. 6 , indicates to thecontrol arrangement 104 that the spacing between two trailingedges 30 differs from the desired spacing D in the incoming imbricated formation S. In the present case, the spacing measured is equal to approximately double the desired spacing D.FIG. 7 shows the state in which apaddle element 18 has already engaged beneath theproduct 28 preceding thegap 84, and has lifted up this product from the product located beneath it. The position of thepaddle elements 18 in thetransfer region 66 corresponds to a situation which is present just prior to the situation shown inFIG. 3 . - The
gap 84 causes thepaddle element 18 of thenext separating element 14 to be located upstream, as seen in the supply direction F, of theedge 30 of thenext product 28 which is to be gripped (FIG. 7 ). In order to prevent thepaddle element 18 from clutching at thin air, and thus the associatedgripper 12 from remaining empty, the transportingwheel 10 and thestop 40, together with the supporting-type conveying belt 102, are displaced by the carriage 78 (FIG. 6 ) by a distance d counter to the supply direction F. This situation is shown inFIG. 8 . The distance d here is somewhat smaller than the desired imbrication spacing D and has been selected such that the spacing between the trailingedges 30 of the already gripped product and of the following product corresponds essentially to the imbrication spacing D. Since thestop 40 is moved relative to the stationary conveyingbelt 37 of thesupply arrangement 36, the products already butting against it, in particular the product beneath which thepaddle element 18 has already engaged, are displaced relative to the products which are not yet butting against the stop, this resulting in thegap 84 being closed. As far as the supply speed is concerned, the displacement d is somewhat smaller than the imbrication spacing D. - The function of the
pivotable guide track 54 will be explained hereinbelow: as is illustrated inFIG. 7 , the leadingedge 18 c of the separatingelement 14 which follows that separating element which has already engaged beneath aproduct 28 is located only a little way above thelevel 100 of the highest points of the incoming imbricated formation S. The leadingedge 18 c is thus at virtually the same height as the trailingedges 30 of theproducts 28. As is illustrated inFIGS. 1-3 , theguide track 54 is shaped such that, on account of the pivoting movement of the paddle element about thespindle 26, the leadingedge 18 c is lowered further to beneath thelevel 100 as the transportingwheel 10 continues rotating. Displacement of the transportingwheel 10 counter to the supply direction F thus gives rise to the problem of theproduct 28 which is to be gripped having the leadingedge 18 c of thepaddle element 18 coming into contact with it along its exposed product surface. It is thus possible for the product to be damaged during displacement of the transportingwheel 10, for the displacement movement to be blocked or for the pivoting mechanism for thepaddle elements 18 to be damaged. - This problem is solved by the
guide track 54 being pivoted through an angle α of approximately 10-20° in the movement direction of thegrippers 12 and separatingelements 14, i.e. in this case in the counter clockwise direction. This is because, in this case, the downward pivoting movement of thepaddle elements 18 is executed in a position which is located further to the rear in the movement direction. This results in the leadingedge 18 c remaining above thelevel 100 until theproduct 28 is located upstream of the leadingedge 18 c, as seen in the supply direction F. The track displacement also gives rise to a delay in the pivoting movement of thepaddle element 18 which has already engaged beneath a product. However, this does not have any effect on the transfer process to thegripper 12, since the product is already positioned far enough on the bearing surface of thepaddle element 18, this bearing surface being defined by thesecond leg 18 b, to allow it to be transferred into thegripper 12. - Once the position which is shown in
FIG. 8 has been reached, activation of thedrive arrangement 94 causes theguide track 54 to be rotated back again through the angle α into the original position according toFIG. 7 . The stillempty paddle element 18 is thus pivoted relative to itscarrier unit 16 at a slightly quicker rate than during normal operation. The same also applies, during pivoting of theguide track 54, to all the other paddle elements, but their functioning is not affected in any way. - The pivoting of the
guide track 54, this operation being illustrated inFIGS. 7 and 8 , predominantly serves to lower the leading edge of thepaddle element 18, even in the event ofirregularities 84 in the incoming imbricated formation S, in a specific manner downstream of theproduct edge 30 beneath which the paddle element is to engage, and to avoid contact with the product surface. If thesecond legs 18 b of thepaddle elements 18 are elastic at least in a direction oriented away from the product, and thus cannot damage the product even in the event of contact, it is also possible to dispense with thepivotable guide track 54. Such elasticity, which simultaneously allows sufficient stability for engaging beneath a product, can be achieved by apaddle element 18 which is constructed from lamellae transversely to the supply direction F and is flexible in the direction of thepivot spindle 26 and rigid in the opposite direction. - In order to form a gap, the
carriage 78 is displaced in the supply direction F. Agripper 12 in the receivingregion 66 first clutches at thin air, which results in the gap being formed in the outgoing formation S′. Thecarriage 78 is then pushed back again into the starting position. There is no need for theguide track 54 to be adjusted in this case. - The displacement mechanism shown in
FIG. 6 and the adjustable guide track shown inFIGS. 7 and 8 can also be used for apparatuses which operate with conventional separating elements, in particular for an apparatus according to EP-A 1 055 620. - Many modifications and other embodiments of the invention set forth herein will come to mind to one skilled in the art to which the invention pertains having the benefit of the teachings presented in the foregoing description and the associated drawings. Therefore, it is to be understood that the invention is not to be limited to the specific embodiments disclosed and that modifications and other embodiments are intended to be included within the scope of the appended claims. Although specific terms are employed herein, they are used in a generic and descriptive sense only and not for purposes of limitation.
Claims (15)
1. An apparatus for receiving and conveying sheet-like products, comprising:
a plurality of grippers mounted for movement in a gripper movement direction along a gripper movement path,
a plurality of separating elements which are independent of the grippers and are mounted for movement in a separating element movement direction along a separating element movement path, and with the gripper movement path and the separating movement path extending through a receiving region,
wherein by means of the separating elements a product in the receiving region and below the gripper movement path and the separating movement path can be raised at least in part such that it can be gripped by a gripper, and
wherein the separating elements each comprise at least one paddle element which is configured to engage beneath and raise an edge of a product which at least in part rests on a further product or on a bearing surface.
2. The apparatus as claimed in claim 1 , wherein the separating element movement path is formed, and/or the separating elements are configured to be moved relative to the separating element movement path, such that, in the receiving region, a leading edge of the paddle element, as seen in the separating element movement direction, is lowered rearward of an edge of a product which is to be gripped and is then moved more quickly than the product.
3. The apparatus as claimed in claim 2 , which comprises a stop which, in the receiving region, forms a resistance for the leading product edge.
4. The apparatus as claimed in claim 1 , wherein the separating elements each comprise a carrier unit which is stationary in relation to the separating element movement path, and wherein one of the paddle elements is mounted in a pivotable manner on each carrier unit.
5. The apparatus as claimed in claim 4 , wherein the paddle element comprises a first leg which is connected in a rotatable manner to the carrier unit, and a second leg, which is connected rigidly to the first leg, the first leg being generally rectilinear in profile and the second leg being curved convexly in profile in relation to the separating element movement direction.
6. The apparatus as claimed in claim 1 , wherein the grippers each have two gripper jaws, and wherein the paddle elements each define a supporting surface which is capable of supporting a product during the receiving process, and wherein in the receiving region, the supporting surface is arranged, at least in part, between the gripper jaws of an associated gripper.
7. The apparatus as claimed in claim 1 , wherein, at least in the receiving region, the paddle elements can be pivoted relative to the separating element movement path by means of a separating element control arrangement.
8. The apparatus as claimed in claim 7 , wherein the separating elements each comprise at least one guide element, and wherein the separating element control arrangement comprises a separating element guide track which interacts with the guide elements.
9. The apparatus as claimed in claim 8 , wherein the position of the separating element guide track is movable relative to the separating element movement path, so that it is possible to vary, within the separating element movement path, the position in which the separating elements execute the movement necessary for lifting up a product.
10. The apparatus as claimed in claim 1 , further comprising a supply arrangement for the products which are to be received which defines a supply direction in the receiving region with the supply direction being generally parallel to the gripper movement direction and the separating element movement direction.
11. The apparatus as claimed in claim 10 , wherein the grippers and the separating elements are arranged on a common transporting wheel, which can be displaced in or counter to the supply direction of the supply arrangement in order for it to be possible to compensate for irregularities in a formation of products transported to the receiving region by means of the supply arrangement.
12. The apparatus as claimed in claim 11 , further comprising a stop which is arranged in the receiving region so as to engage the products transported by the supply arrangement, the stop being displaceable together with the common transporting mechanism, and wherein the stop and the transporting mechanism are arranged on a common carriage.
13. An apparatus for receiving and conveying sheet-like products, comprising
means for conveying a plurality of the sheet-like products in an incoming imbricated stream to a receiving region,
a transporting wheel mounted for rotation above the receiving region and mounting a plurality of grippers positioned in spaced relation about the periphery of the wheel, and a plurality of separating elements mounted about the periphery of the transporting wheel adjacent respective ones of the grippers, and
means for controlling the operation of the grippers and the separating elements during rotation of the transporting wheel so as to form in a discharging region, an outgoing imbricated formation of the products in which the trailing and leading product edges have been reversed and wherein the initially upper trailing edge becomes a lower leading product edge.
14. The apparatus as claimed in claim 13 wherein the separating elements are each configured and controlled to raise the trailing edge of a product in the receiving region so that the trailing edge is gripped by the associated gripper.
15. The apparatus as claimed in claim 14 wherein the transporting wheel defines a removal arrangement on the side of the wheel generally opposite the receiving region and wherein the grippers release the products onto a belt conveyor.
Applications Claiming Priority (2)
Application Number | Priority Date | Filing Date | Title |
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CH4152006 | 2006-03-17 | ||
CH00415/06 | 2006-03-17 |
Publications (1)
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US20070216082A1 true US20070216082A1 (en) | 2007-09-20 |
Family
ID=36215727
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
US11/686,750 Abandoned US20070216082A1 (en) | 2006-03-17 | 2007-03-15 | Apparatus for receiving and conveying sheet-like products |
Country Status (4)
Country | Link |
---|---|
US (1) | US20070216082A1 (en) |
EP (1) | EP1834913A1 (en) |
AU (1) | AU2007200640A1 (en) |
CA (1) | CA2577379A1 (en) |
Cited By (5)
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CN101531290A (en) * | 2008-03-14 | 2009-09-16 | 米勒·马蒂尼控股公司 | Transport device for the acquisition and transfer of printed items |
US20100075821A1 (en) * | 2008-09-22 | 2010-03-25 | Heidelberger Druckmaschinen Aktiengesellschaft | Method and machine for folding sheets |
US20100071318A1 (en) * | 2006-09-21 | 2010-03-25 | Brandhorst Bjoern | Method of, and apparatus for, handling nappies |
EP2632836A1 (en) * | 2010-10-28 | 2013-09-04 | BÖWE SYSTEC GmbH | Apparatus and method for buffer-storing a plurality of goods or goods groups, and paper handling system having said apparatus |
US20140151188A1 (en) * | 2011-06-27 | 2014-06-05 | Focke & Co. (Gmbh & Co.Kg) | Device and method for grouping articles |
Families Citing this family (1)
Publication number | Priority date | Publication date | Assignee | Title |
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CH703816A1 (en) * | 2010-09-17 | 2012-03-30 | Ferag Ag | Device for transferring products to a grab sponsors. |
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EP2632836A1 (en) * | 2010-10-28 | 2013-09-04 | BÖWE SYSTEC GmbH | Apparatus and method for buffer-storing a plurality of goods or goods groups, and paper handling system having said apparatus |
US20140151188A1 (en) * | 2011-06-27 | 2014-06-05 | Focke & Co. (Gmbh & Co.Kg) | Device and method for grouping articles |
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Also Published As
Publication number | Publication date |
---|---|
AU2007200640A1 (en) | 2007-10-04 |
EP1834913A1 (en) | 2007-09-19 |
CA2577379A1 (en) | 2007-09-17 |
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Legal Events
Date | Code | Title | Description |
---|---|---|---|
AS | Assignment |
Owner name: FERAG AG, SWITZERLAND Free format text: ASSIGNMENT OF ASSIGNORS INTEREST;ASSIGNORS:FENILE, ROBERTO;KELLER, ALEX;REEL/FRAME:019033/0142 Effective date: 20070227 |
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