• 专利附录
  • 专利说明
  • 权利要求
  • 类似技术
  • 同族专利
  • 引用文献
  • 法律状态
  • 优先权
    • 专利摘要:
    The process is used for the production and picking of wooden lamellae, in particular finger-jointed solid wood lamellae, following a raw material task, a continuous continuous production is carried out without change of assortment to the picking ready for dispatch packages. The apparatus for producing and picking wood slats, in particular finger-jointed solid wood slats, consists of a continuously operated continuous production plant with a raw material task area (A), a sorting and storage area (B) and a packaging area (C).
    公开号:AT513102A2
    申请号:T5462013
    申请日:2013-07-01
    公开日:2014-01-15
    发明作者:
    申请人:Hanses Saegewerkstechnik Gmbh & Co Kg;
    IPC主号:
    专利说明:

    01.07.2013 21:49 KANZLEI STREET & FAUL 08563975026 PAGE. 3/20 01.07.2013 21:49 KANZLEI STREET & FAUL 08563975026 PAGE. 3/20
    * * ·· «· · ·« iM «· ·« • ♦ · · * ♦ »··· · ·« «· · · *
    Internal file: 4111
    Hanscs sawmill GmbH & Co. KG Zum Osterfeld 2 59872 Meschede - Remblinghausen
    Method and device for producing and picking wooden slats
    description
    The invention relates to a method and an apparatus for producing and picking wooden slats, in particular finger-jointed solid wood slats.
    The trade leads a large number of conceivable system lengths and cross-sectional dimensions in the product design of finger-jointed and, if necessary, also strength-graded solid wood tunnels. With regard to the plant concepts currently available on the market for the production of timber, this circumstance results in a core problem for the manufacturers.
    The currently available plant concepts preclude immediate order-related production of list goods. The strategy is based on the current state of the art to produce package units consisting of individual bars of the same cross section and the same system lengths in stock and to keep in stock in a commission warehouse on call. Consequently, standard stock is produced in stock and commissioned after the actual manufacturing process. Ordered listware in the case of this manufacturing strategy. The producer has high capital tie-up due to warehousing and other investment and overhead costs due to the associated acquisition of storage space and buildings. The economic stability of the timber market is subject to a large number of external, unpredictable influencing factors. The strategy described above involves a high financial risk for the plant operator. In addition, there are also significant bar waste losses through picking. 01/07/2013 21:46
    No .: R416 P.003 / 020 01.07.2013 21:49
    KANZLEI STREET £ FAUL 08563975026 PAGE. 4/20 ft. ··· «44 4 4 44 4 * ft 4 ft 4 4 · ft ft 4 44 4444« 4 4 ·· · · · »ft 4 ftftftftft 4 ft ft 4 ft · 4 4 · 4 * ft V »4 * 4 444 4 ft * **
    So far, the implementation of an order-related BOM production of solid wood laths failed due to the mechanical engineering concepts, the design of the production processes as well as the requirements of a software-supported order-related production.
    At this point, the invention begins with a novel, manufacturing concept. This is the subject of the two independent claims for the method and the device suitable for this purpose. Advantageous developments are subject of the dependent claims,
    The invention is explained below with reference to an embodiment which is shown in the drawing. ln this show:
    FIG. 1 is a perspective plan view of a plant designed according to the invention,
    FIG. 2 shows a view of the installation from the opposite side,
    Figure 3 is a plan view of the system and Figure 4 is a side view of the system.
    The method and the plant according to the invention are essentially subdivided into three successive sections, which are designated A, B and C in FIG. 1: A Time-optimized and commission-compliant raw material supply B Picking with package optimization C Package formation with automatic stacking
    Section A:
    Time-optimized commission-compliant supply of raw materials
    The material status at the goods receipt (01) (see Figure 3) is defined as follows:
    There are abandoned lumber stacks whose layers consist of sawn timber of the same cross-sectional dimensions and the same length. The layers can be separated by drying or stacking strips.
    The material is supplied by floor conveyors or upstream transport facilities. The lumber stacks are placed in transverse transport on a transverse conveyor (01) and buffered in the conveyor section (02) (main memory). 01/07/2013 21:46
    No .: R416 P.004 / 020 01.07.2013 21:50
    KANZLEI STREET & FAUL 08563975026 PAGE. 5/20
    The conveying elements ¢ 02) / (03) have independent drive elements. The cyclic withdrawal of lumber stack from the buffer section (02) is realized by means of cascade connection. The occupancy of the conveyor section (03) is limited to a lumber stack. The working memory (02) can also be charged when the conveyor section (03) is occupied.
    A lifting and senkbarcrcr roller conveyor (05) is used to deduct the lumber stack from the conveyor section (03) for raw material removal to position (06) / (07), Here are two identical transverse conveyor positioned.
    The lumber stacks are buffered at position (06) / (07). The allocation of the lumber stack from position (06) / (07) to position (01) is made by Matabrialab- and task by truck. In both cases, a flow of material having an internal [(02) -> (03) -> (06) - > (Forging equipment) / (roller table) -> (02)] and an outer f (02) "^ (03) -> (07) -> (forging) / (for scrolling) - ^ (02)] for looping , which can be seen in the lower part of Figure 3. The cross conveyors (01) / (06) / (07) run in reversing mode. The buffer area (06) / (07) also serves to return Rcstgutteilen resulting from an overhang of Keilzinkproduklion and are returned via the cross conveyor (20). The buffer area of the cross conveyor also serves to bridge the hardening time of transferring adhesive film and dripping rabbits. After curing, the residual parts can be transferred to the lumber stack at ¢ 06) / (07) by means of suction cups (04). In this case, the risk is excluded that excess adhesive remnants cause an adhesion of the residual material parts with the cargo of the lumber layers.
    The intermediate puff of the lumber stacks at the positions (02) / (06) / (07), the looped material flow and the return and allocation of the piece goods to the package units at Pos ¢ 06) / (07) are essential components in section A of the invention. The following statements are intended to explain this in more detail;
    The goods receipt is loaded analogously to so-called works orders.
    A feed unit corresponds in this case to a lumber stack. The boards within a lumber pile correspond to the same assortment and have approximately identical dimensions. The customer orders, however, contain a plurality of 01/07/2013 21:47
    No .: R416 P.005 / 020 01.07.2013 21:50
    KANZLEI STREET & FAUL PAGE. 6/20 08563975026 0 · • 0 ······························································································································································································································ 00 • • 00 • • • 0 • * 0 • • •
    Products that vary in size. The plant orders are made up of daily production or shift production units. The production volume of these units again corresponds to a large number of customer orders.
    The task now consists in the sequential breakdown of the works orders on the premise that customer orders in optimized package units, taking into account the Transportbelademaßc and the package tonnage and thus also piece-matched and on schedule at the end of production are merged. Optimized, software-based logic for the formation of package packages suitable for transport forms one of the decisive influencing factors in plant logic and mechanization with regard to the material flow concept and requires a high number of assortment changes in ongoing production.
    The customer orders are planned using a software-supported production control system. Here, the production control system is the active partner (master), which reads and evaluates the defined data areas of the PLC (programmable logic controller) based on the available plant resources.
    If a lumber stack is now deposited at the goods receipt (01), the system PLC requests the parcel number of the lumber stack from the control system. The finger jointing system (15) between sections A and B cyclically informs the system PLC about the current out- and reject run meters. The PLC then calculates the required residual runners and reports them to the control system. Since the storage PLC calculates the running meters already at the position transfer (03) from the vacuum suction (04) on the task conveyor, this recognizes the end of the order not only when reaching the target running meter at the Fehlstellenkappung (13), but already during the unstacking of lumber packages , To do this, the plant PLC uses the current waste product, the current running meter to the fault location and an adjustable overhang to calculate when the target quantity has been reached. When the target quantity is reached, the plant PLC requests the next order data and starts destacking the next stack of sawn timber.
    An order-related list production can therefore already require a change of assortment if the stack of snail stacks loaded at position (03) has not yet been completely destacked. An annual production of approximately 75,000 ms of listware requires until 01/07/2013 21:47
    No .: R416 P.006 / 020 01.07.2013 21:51
    KANZLEI STREET & FAUL 08563975026 PAGE. 7/20 MM ft ··· ··· ·· »» ft * ft «« · «* · ·» * Φ · fe · ··· · · · aa # · Μ a · a · yes «a» · For example, there are 40 snapshots in each Snhir.ht (R Ruden layer). With currently available logging connec- tions, a wcvliscl assortment occupies an average of 2 minutes, due to the idle time of the plant. This corresponds to a counterproductive loss share of just over 16 percent per shift.
    The novel plant concept limits the buffering period of the assortment change to a value close to zero. Due to the communication between the PLC of the vacuum suction 04 and the finger jointing system 15, a software-controlled, order-specific general cargo production is accomplished in relation to a loop-shaped material flow. The essential difference to the previously available plant concepts is based on a sequential, order-related destacking instead of a batchwise unstacking of the sawn timber stacks. The communication between the control system, the vacuum suction PLC and the finger jointing unit 15 enables a comparison or correction of the order file) (master data and variable data, for example dynamic adjustment of a future event list for the time positioning of the orders) for a production list-compliant production.
    The following explanation serves to illustrate the manufacturing process of ready-to-use blanks up to the finger-jointed finished piece.
    The sawn timber stacks are stacked in layers by the vacuum suction device (04) from the conveyor section (03). The vacuum suction device transfers the recorded position to the cross conveyor (08). A pivotable conveyor unit positions (08) the position in a sloping position to the conveying plane. A holding device fixes the position in the inclined position. As a result, slipping of the stacking and drying strips between the individual layers according to position (09) is brought about. A belt conveyor with cheek plates (09) picks up the strips and conveys them to a strip stacking machine (10).
    The conveyor unit (08) pivots back into the starting position and conveys the position to a judging station (11). The piece goods of the situation are occasionally and visually evaluated by a coworker: Lamellar sections, which are inadmissible due to optical characteristics (due to branches, adhesions, cracks, insect infestation, fungal infestation, etc.), are marked with fluorescent chalk, A flap mechanism at (08) Throws the slats to a cross conveyor (12), see. also figure 4. 01/07/2013 21:47
    No .: R416 P.007 / 020 01.07.2013 21:51 KANZLEI STREET & FAUL 08563975026 PAGE. 8/20
    • ··· «« • ··· «· 4 4 • f ·······································································
    The QuerfÖrdercr (12) passes the cargo to a Einzugsrol lengang (13) in the Lfingstransport. The clock finger jointing system (15) can be considered in the present context as a closed system (black box), which is not the subject of the invention.
    An optical luminescence button in combination with the length measuring system detects the marked fault spot sections and reports them to the PLC of the downstream cross-cut saw unit (15). The good parts are galvanized on both sides of the Stim profiles, applied with glue and pressed on the end side to form an endless profile. By applying a Klebcschichl on the front end Keiizinkprofile the individual pieces a durable and resilient adhesive bond is formed.
    A continuous crosscut sawing unit (16) removes order-related general cargo lengths from the endless profile, meanwhile the endless profiles are unloaded from a metering roller conveyor with puller jib in longitudinal transport in the direction of the sorting tower (paternoster with floor storage). The tracking of order-related general cargo is the task of plant control. When the workpiece is transferred to the roller table (18), a unique workpiece number is assigned by the system PLC, which is also applied to the workpiece at the end by laser (17). The workpiece number is transmitted to the Leilsystem. All data of the workpiece are stored in a data area assigned to the number. For workpiece monitoring, only the workpiece number must therefore be clocked by the system. The order-related general cargo is clocked by the system from this point on until the package is formed by the PLC. During transport to the withdrawal position, the quality of the glued tines is controlled by means of a light barrier. The pieces of goods transferred to the transverse transport run on chain conveyors.
    In the case of transversal transport (19) of the piece goods, collisions between general cargo and potential (machine) interfering edges can subsequently impair the production process. At the machine input of the Querforderers (19) is carried out for this reason a PLC-gestuzuerte Molzausrichtung. The target position of the timber alignment is determined by the plant PLC for the respective general cargo and transmitted from the control system to the PLC of the timber alignment, which aligns the piece goods accordingly. As a result, the required number of chain strand for the transverse transport of piece goods at Pos (19) is reduced. 01/07/2013 21:48
    No .: R416 P.008 / 020 01.07.2013 21:52 ROAD STREET £ FAUL 08563975026 PAGE. 9/20 lt II M ·· • »I II · · * • * I * 1 * 1 II * 11 · · • 4 III ··· I ♦ 4 * l« II · «« ··· yt * «· ** · · · * **
    The gezinkten cargo require a predetermined time to endure the adhesive joints. The adhesive bond is only slightly resilient in this time and thus the general cargo until the completion of Aushürtens.
    The piece goods sections can be deducted from the drawing table in the transverse transport optionally according to position (19) or position (20).
    Section B:
    Picking with package optimization
    The deduction of the cargo is carried out by drag conveyor (19) with raisable and lowerable retaining hooks.
    Pieces of goods that have been allocated to a sales order are deducted in the transverse transport by a towing conveyor (19). The drag conveyor is equipped with a plurality of raisable and lowerable retaining hooks (pawls) which are positioned at equal intervals along the conveying path. The conveyor sections formed by the retaining hooks of the drag conveyor (19) provide a piecewise occupancy. The allocation of the piece goods from the drag conveyor (19) to the Hebequerförderer (21) (Paternoster) is intermittent and is automatically triggered by the control system by a message to the PLC of the paternoster.
    The lifters of the paternoster are positioned at regular intervals in a plurality of its conveyor elements (chain strand). Upon release of the retaining hooks by the PLC of the Schleppfördcrers (19) the piece goods are detected by the lifting devices and conveyed in a vertical upward movement to the floors of Eiagenspeichers (22).
    The floor storage (22) has a modular structure and consists of several identical floors.
    The loading of the floor storage (22) via chain strands (23). Due to the cyclic loading of the floor storage by the paternoster the chain strands of the floor conveyor are equipped with Fördemocken. This is an important aspect with regard to training in Section B: 01/07/2013 21:48
    No .: R416 P, 009/020 01.07.2013 21:52 KANZLEI STREET & FAUL 08563975026 PAGE. 10/20
    Since a list-related contract manufacturing according to the current state of the art is realized by the upstream production of standard goods, the function of a floor storage was previously in the sorting and storage of similar assortments and qualities. The sorting was essentially determined by the number of floors and the length of the floor storage. By single or multiple cascade circuits of conveyor sections so far a simultaneous loading and emptying Spcicberabschnitten was realized within a floor storage.
    The Fördcmocken in the floor storage 22 now serve for the separation and intermittent placement of floor storage. This is necessary and novel for an order-related list production for the following reasons:
    The procedure of the workpieces in the floors as well as in the paternoster (21) / (24) takes place in automatic mode exclusively by specifications of the control system. The travel cycle is sent per cycle by the control system. The PLC then moves first to floors 22 and then the paternoster 21, 24. Mil the finished message of Verfahrlaktes to the control this sends the data for the next cycle. Before the traversing cycle is carried out, the PLC uses the current assignment to check whether the specified movements are possible. The Fördemocken limit here the conveyor sections and guarantee a piece goods tracking to the exclusion of disturbances, caused by general cargo overlays.
    A cyclic Ansteuem the cargo is also necessary for the explained below material conversion within the floor storage 22 and is made possible by the Fördemocken. Essential in section B here is the further paternoster (24). The paternoster (24) is identical to the paternoster (21) and fulfills two essential functions:
    By means of a reversing operation, the paternoster (24) can pick up the piece goods from the storey storages 22 and deliver them to an eyelet feeder (26). This is the procedure that has been common in practice up to now. P.010 / 020 01/07/2013 21:49 No .: R416 01.07.2013 21:52 KANZLEI STREET & FAUL 08563975026 PAGE. 11/20 «· · · · · · · · · · · · · · · · · · · · · · ·
    • ♦ Φ · • · ♦ ··
    In addition, the paternoster (21) / (24) in interaction enable a cyclic material switching between the floors of the floor storage (22). This has the following practical background:
    The material transfer and chaotic material feed of the floors in certain cases make it possible to combine customer-specific orders in the upstream process. By a Kaskadenschallung along the conveyor lines of the floor storage 22 two independent access areas are created. The Vorbestückung of the floors and the subsequent order-oriented redeployment of cargo in the floors grazing realized by the two Paternoster 21, 24 in conjunction with piece goods timing and cascade connection. Such a system concept is currently not available on the market.
    Supplement to Section A:
    Time-optimized commission-compliant supply of raw materials
    The deduction of the cargo from the roller conveyor (18) takes place at the QueriÖrderer (20):
    Part-load sections that have not been allocated to a customer order are deducted by transverse transport to a transverse conveyor (20). This occurs when, as a result of a change in product range, a residual length of the endless profile remains as excess general cargo or when the overhang calculated by the finger jointing system 15 is greater than the scrap produced. These items are pulled off the roller conveyor (18) to the QueriÖrderer (20) and buffered. The PLC of the continuous saw (16) reports the piece goods to be deducted to the cross conveyor (20) to the control system. The control system informs the PLC of the vacuum suction unit (04) which piece goods occupy the intermediate buffer (20), so that the vacuum cleaner (04) finger-jointed overhang on the remaining packages before the raw material return transport can deposit into the raw material warehouse.
    The cross conveyor (20) is next to the buffer also a bypass:
    At the cross conveyor (20) is a pivotable feed unit (35). This makes it possible to unstack the lumber packages at the transverse conveyor (06) / (07) by means of a vacuum suction device (04). This case occurs, for example, if presorted standard goods with defined 01/07/2013 21:49
    No .: R416 P.011 / 020 01.07.2013 21:53 KANZLEI STREET & FAUL 08563975026 PAGE. 12/20
    II II ••• Ml I • I I m i l • I · M ···· III «• ·« · ·
    • F I I IM v ft · * ·
    System length »in the Suriicriurm (22) should be sorted into customer orders and then planed,
    Section C:
    Package formation with automatic stacking
    At the planing extractor (27) the Slückgutleile be transported in the longitudinal transport to a roller conveyor (2g). The roller conveyor is equipped with a pull-off conveyor, which allows a deduction of the cargo to the stacking machine (29) or to a Pager station (30). In the stacking unit (29), a fully automatic layer formation and the stacking of the formed layers into package units take place. Since the Slückgutleile vary in an order-related list production in dimension and length »calculated the control system by means of optimization algorithm (nesting) optimal positioning of the piece parts within a layer and the optimal arrangement of the layers within a package unit. The fully automated layer formation (29) and optimal arrangement of the layers within the package units to be formed is realized by means of Lagcntauschplat2 (30). If, for reasons of efficiency (order reference times), the arrangement of the piece goods within a position in the sorting tower (22) makes no sense, then the piece goods supplied by the roller conveyor (28) can be removed from the position exchange point on conveyor banners. The conveyor hooks are fitted to a chain strand in a plurality and can be set when occupied in the concentricity on the roller conveyor (paternoster). If, for reasons of efficiency, the withdrawal of the layers formed in the sorting tower is not possible in the same order as in the arrangement of the layers in the package unit to be formed by the guidance system, then the layers can be buffered at the location exchange 30 and in the required sequence the stacking machine 29 are provided.
    The interplay of the floor sorting and the downstream sorting for correcting the layer arrangement and the piece goods arrangement within the layers is currently not available on the market and constitutes an essential part of Section C. The layering and package formation automated by the guidance system is also in connection with the present concept an integral part of section C. 01/07/2013 21:49
    No .: R416 P.012 / 020 01.01.2013 21:53
    KANZLEI STREET & FAUL PAGE. 13/20 08563975026
    The task of the machine operator on the stacking unit (29) is to compensate for the height offset caused by conceivable cross-sectioning in the piece goods contained within a layer by design with filling material (non-recyclable material)
    Balance parts) and thereby optimize the package stability. The operator otherwise performs only a quality-assured control function (for example damaged tine connection). This fact also constitutes an essential part of Section C.
    The orientation of the piece goods (hochkanl, lying) is realized by a in the stacking unit (29) integrated turning device.
    If a complete package unit has been formed by the stacking unit (29), this is transferred from the cross conveyor (31) of the stacking unit to a roller conveyor (32) in the longitudinal transport. The transfer of parcels is made possible by lifting and lowering rollers. The parcels may be conveyed from the roller conveyor (32) to a foiling station (34) or optionally parked in a buffer area (33) for reworking (e.g., replacement of damaged parcel).
    In the wrapping station (34), the packet units are cycled in cycles. Laminated packages are transferred to a cross conveyor (35). When transferred to the cross conveyor, the parcels receive the shipping status and wait for loading in the buffer area. 01/07/2013 21:50
    No .: R416 P.013 / 020
    权利要求:
    Claims (12)
    [1]
    01.07.2013 21:53 AÄMZliiSl blKÄäSiÜ ίί Ü'AUli 08503375026 14/20

    1. A method for producing and picking wooden slats, in particular finger-jointed solid wood slats, characterized in that following a raw material task continuous continuous production is carried out without change of assortment until the picking of parcels ready for shipment
    [2]
    2. The method according to claim 1, characterized in that the endless production consists of the following, merging sequences: A Zcitoptimierte and commission-appropriate raw material supply B picking with package optimization C package formation with automatic in 'stacking
    [3]
    3. The method according to claim 2, characterized in that takes place in the section A, the raw material supply in an inner and an outer loop pass.
    [4]
    4. The method according to claim 2 or 3, characterized in that not required for further production lumber stack shares in the raw material supply zwi schcngcpufferl,
    [5]
    5. The method according to claim 2, characterized in that chaotically stored in section B, the finished wood slats in a reversible magazine and order-oriented umgeschichlet be.
    [6]
    6. The method according to claim 2 and S, characterized in that in the section C, the order-oriented lumber lamellae are sorted to transportable corrected layers and packaged.
    [7]
    7. An apparatus for producing and picking wooden slats, in particular kohlgezmklen solid wood slats, characterized by a continuously operated continuous production plant with a raw material task area (A), a sorting and storage area (B) and a Paketierbereich (C). P.014 / 020 01/07/2013 21:50 No .: R416 01.07.2013 21:54 ROAD STREET £ FAUL 08563975026 PAGE. 15/20

    »* * · • ·« · 4 4 4 4
    [8]
    8. The device according to claim 7, characterized in that the task area (A) consists of serving as a working conveyor section (02) for discharging raw material and from at least one parallel Rückfilhrbereich (06.07) for the intermediate storage recycled raw material.
    [9]
    9. Device according to claim 8, characterized in that the conveyors (02, 06, 07) operate in reversing operation,
    [10]
    10. The device according to claim 7, characterized in that the sorting and storage area (B) of at least one patemoster-like Hebequerförderer (21) and a cooperating floor storage (22) is composed.
    [11]
    11. The device according to claim 10, characterized in that the floor storage (22) equipped with Fördemocken chain strands has.
    [12]
    12. The device according to claim 7, characterized in that the Paketierbereich (C) has a Stapeleinheil (29) and a parallel arranged layer exchange and buffer station (30). P.015 / 020 01/07/2013 21:50 No .: R416
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    同族专利:
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    引用文献:
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    法律状态:
    优先权:
    申请号 | 申请日 | 专利标题
    DE201210106049|DE102012106049A1|2012-07-05|2012-07-05|Method for manufacturing and commissioning of e.g. wedge-marked timber slats, involves carrying out continuous endless production without causing assortment changes to commissioning of goods ready for dispatch|
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