CN101869951A - Feeding mechanism of numerical control turret punch press in X-axis direction - Google Patents
Feeding mechanism of numerical control turret punch press in X-axis direction Download PDFInfo
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- CN101869951A CN101869951A CN 201010191385 CN201010191385A CN101869951A CN 101869951 A CN101869951 A CN 101869951A CN 201010191385 CN201010191385 CN 201010191385 CN 201010191385 A CN201010191385 A CN 201010191385A CN 101869951 A CN101869951 A CN 101869951A
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- guide rail
- clamp
- linear motor
- hitch
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Abstract
The invention relates to a feeding mechanism of a numerical control turret punch press in X-axis direction, which comprises a cross beam arranged on a body of the numerical control turret punch press. The invention is characterized in that the outer side of the top surface of the cross beam is provided with a guide rail I; one side surface adjacent to the top surface is provided with a guide rail II which is parallel to the guide rail I; the cross beam between the guide rail I and the guide rail II is fixed with a linear motor stator; the cross beam is provided with three coupling brackets which stretch across the cross beam through the guide rail I and the guide rail II; each connecting bracket is provided with a slider and a side slider which respectively cooperate with the guide rail I and guide rail II; the coupling bracket is also provided with a linear motor rotor which cooperates with the linear motor stator; and pliers are fixed on the side slides through a plier seat.
Description
Technical field
The present invention relates to a kind of NC turret punch machine, relating in particular to a kind ofly provides power and can realize the X-axis feeder of clamp servo-positioning with linear electric motors.
Background technology
NC turret punch machine is the key equipment of metallic plate punching processing, and as the feeder of realizing the plate automatic feed, conventional art adopts motor 2 to drive ball-screw 4 and realizes transmission of power, and lead by guide rail 12 and slide block 10 referring to Fig. 1.Connection seat 7 passes through screw attachment with screw set 42 as shown in Figure 3, on crossbeam 1, the motor 2 that is fixed on the motor cabinet 3 drives ball-screw 4 rotations, connection seat 7 can move back and forth along directions X on ball-screw 4 under the guiding of guide rail 12 slide blocks 10, connection seat 7 also is to be connected by screw with slide carriage 5, slide carriage 5 passes through screw attachment with slide block 10, slide block 10 can slide at guide rail 12 upper edge directions Xs, rotatablely moving of leading screw 4 is converted into the straight reciprocating motion of connection seat 7 along directions X under the effect of screw set 42 like this, guaranteed that clamp 11 along the moving of directions X, moves along directions X thereby drive plate.Can realize clamping the requirement of different big or small plates by the position of manual adjustments clamp 11 on slide carriage 5, as shown in Figure 5 with lathe bed on two reorientation cylinders 44 be used the reorientation that can realize clamp, wherein reorientation cylinder 44 is fixed on the cylinder block 43, and cylinder block 43 is fixed on the lathe bed 45 by screw.Reorientation be for satisfy the processing plate width of cloth greater than the plate of directions X stroke or when avoiding the clamp dead band by adjusting the process that clamp clamps plate on directions X position is realized processing big plate or dodged clamp.The reorientation course of action is such: clamped plate with clamp before punching press begins, move at directions X by slide carriage 5 when the position that will process on the plate and to transport less than below the centre of percussion or Working position when being blocked by clamp, need to adjust clamp position, it is mobile in order to guarantee the adjustment process plate when clamp unclamps, reorientation cylinder action on the lathe bed compresses plate, adjust the position of clamp at directions X this moment, to be adjusted during to correct position clamp clamp, the reorientation cylinder unclamps.Though this structure is the most frequently used structure,, and need be used the clamping once more that could realize in the repositioning process, complicated operation with the reorientation cylinder to plate because its clamp needs the manual adjustments clamped position on rotating tower punch.
Summary of the invention
The present invention is directed to deficiency of the prior art provides a kind of and provides power to realize clamp along the moving of X-direction by linear electric motors, and numerical control is adjusted each clamp displacement and realized the novel mode of sending to the servo reorientation of clamp under the situation of removing the reorientation cylinder.Owing to adopt linear electric motors to drive, thereby can very significantly improve the feed rate of clamp at directions X.
This programme is realized by following technical measures: a kind of feeding mechanism of numerical control turret punch press in X-axis direction, it comprises the crossbeam that is arranged on the NC turret punch machine lathe bed, it is characterized in that the guide rail I being arranged in described crossbeam end face arranged outside, a side adjacent with end face is provided with the guide rail II that is parallel to each other with the guide rail I, fixedly installs linear motor stator electric on the crossbeam between described guide rail I and the guide rail II; Described crossbeam is provided with three hitch, hitch straddles on described crossbeam by guide rail I and guide rail II, hitch is provided with slide block and the side slide that cooperates with guide rail I and guide rail II respectively, also be provided with the linear motor rotor that cooperates with linear motor stator electric on the hitch, clamp is fixedly connected on side slide by the pincers seat board.
Described hitch comprises gusset piece, is fixed with linear motor stator electric on the gusset piece bottom surface successively, pincers seat board and the slide block that cooperates with the guide rail I, the side slide that is fixed with clamp respectively and cooperates with the guide rail II in pincers seat board both sides.
On each hitch, also be provided with hauling-chain frame, the hauling-chain frame I is fixed on the gusset piece I in the hitch I by screw, the hauling-chain frame II is fixed on the gusset piece II in the hitch II by screw, and the hauling-chain frame III is fixed on the gusset piece III in the hitch III by screw.The drag chain box is fixed on the crossbeam by screw, one end of the drag chain that is arranged in parallel is separately fixed on each hauling-chain frame, the other end is fixed on an end of drag chain box side by side, drag chain is used for supporting the lead that is electrically connected with the respective straight electric mover, make lead under the situation of centralized arrangement, avoid intersecting and interfering, so just can guarantee that each hitch moves respectively, thereby lead does not interfere when each clamp is realized moving respectively under the drive of hitch.
Can promptly realize the displacement of single clamp by the motion of controlling single clamp, the displacement of controlling each clamp by numerical control program changes the servo reorientation that clamp is realized in position that clamp clamps plate in proper order on this basis.Digital control system control is seen Fig. 7, Fig. 8 with the block diagram that is connected of X-axis linear servo system, and digital control system is connected with servo-driver by fieldbus, carries out driving synchronously or separately of linear servo-actuator three movers and controls.Synchronous Communication Control technology when employing has etc., when the high speed feeding, digital control system is controlled three mover X-axis as synchronizing shaft, to guarantee to produce bigger thrust and fltting speed; When the clamp displacement, digital control system is carried out Collaborative Control with three movers as three independent axes, realizes plate clamp deflection function; By to the machining locus prediction, avoid the clamp dead band, guarantee the safe distance that clamp is mutual, according to certain clamp displacement strategy, adopt cooperative control method to carry out the servo displacement of clamp automatically, improve working (machining) efficiency and flexibility.
The beneficial effect of this programme can be learnt according to the narration to such scheme, because linear motor stator electric is fixed on the crossbeam, linear motor rotor is connected with slide block by gusset piece, slide block cooperates with guide rail on being fixed in crossbeam, thereby can guarantee that linear motor rotor moves at linear motor stator electric upper edge directions X.Pincers seat board and slide block are by screw attachment, and 3 clamps are separately fixed at above 3 pincers seat boards, and the change of the relative position between them can realize by the motion of the corresponding mover of control on stator.The displacement of clamp realizes in the following manner: when in three clamps one adjusts the position, two other keeps clamped condition, promptly a clamp unclamps plate, the position of linear motor rotor on linear motor stator electric on the pincers seat board that is mated by the digital control system adjustment, simultaneously in addition two clamps clamp and can guarantee that plate does not move, treat this clamp move to the position of setting and clamp after finish a displacement.Clamp combination displacement by program setting carries out can realize changing clamp to the requirement of plate clamped position, has promptly realized the servo reorientation of clamp.The invention provides a kind of new directions X motion implementation, changed the mode of conventional motors drive ball-screw transmission campaign, provide power to replace the conventional transmission motion mode with linear electric motors, and realized three clamps split movement under the control of program, realize the servo reorientation of clamp, thereby under the prerequisite of having removed clamp reorientation cylinder, realized the clamp reorientation.This programme has following characteristic:
1. improved the directions X feed rate.The kind of drive that power is provided with linear electric motors is than simple in structure with the kind of drive of driven by motor ball-screw, since linear electric motors do not need rotation motion be in line the motion attachment device, thereby making the structure of system itself greatly simplify, weight and volume descends widely and therefore improves a lot on the speed.The linear electric motors reaction speed is fast, highly sensitive, servo-actuated is good, linear electric motors accomplish that easily its mover supports with magnetic suspension, thereby make and remain certain air-gap between mover and the stator and do not contact, that this has just eliminated is fixed, the contact friction resistance between mover, thereby the sensitivity, rapidity and the servo-actuated that have improved system widely.
2. can realize the servo reorientation of clamp easily, remove the link of reorientation cylinder action in the original feeder.Because three clamps can be realized the displacement of clamp by the programme-control linear motor rotor, therefore can need to keep of the clamping of two clamps under the situation of reorientation to plate, the another one clamp carries out the displacement adjustment, next can be according to actual conditions, see and realize that the clamp reorientation needs several clamp displacements, repeat above displacement adjustment action and can realize the reorientation that clamp is final, adopt the process of the servo reorientation of this clamp can simplify, simplified frame for movement in conjunction with this link of reorientation cylinder realization clamp reorientation.
3. linear electric motors have characteristics safe and reliable, that the life-span is long.Drive the clamp motion by linear electric motors and can realize non contact transmission power, the mechanical friction loss is almost nil, so fault is few, freedom from repairs, thus safe and reliable, the life-span is long.
Therefore the present invention has compared with prior art realized improving the directions X feed rate, has improved the reliability of sending to, the technical purpose of removing the servo-positioning of reorientation cylinder link realization clamp.
Description of drawings
Below in conjunction with accompanying drawing the present invention is done to describe in further detail.
Fig. 1 sends the structure of parts directions X way of realization to for original rotating tower punch.
Fig. 2 sends parts to for rotating tower punch provides power to realize the structure of directions X motion by linear electric motors.
Fig. 3 sends the connected mode diagram of parts directions X connection seat to for original rotating tower punch.
Fig. 4 is the connected mode diagram of directions X hitch when being power with linear electric motors.
Fig. 5 is the connected mode of original punch press reorientation cylinder.
Fig. 6 is for being the arrangement that send machine parts directions X drag chain of power with linear electric motors.
Fig. 7 is a digital control system and the block diagram that is connected of X-axis linear servo system.
Fig. 8 is linear servo system control block diagram.
Among the figure: 1-crossbeam, 2-motor, 3-motor cabinet, 4-ball-screw, the 5-slide carriage, 6-X axle drag chain, 7-connection seat, 8-X axle hauling-chain frame, the 9-bearing block, 10-slide block, 11-clamp, 12-guide rail, the 13-linear motor stator electric, 14-drag chain box, 15-guide rail I, 16-drag chain I, 17-drag chain II, 18-hauling-chain frame I, 19-gusset piece I, 20-linear motor rotor I, 21-slide block I, 22-hauling-chain frame II, 23-gusset piece II, 24-linear motor rotor II, 25-slide block II, 26-drag chain III, 27-hauling-chain frame III, 28-gusset piece III, 29-slide block III, 30-linear motor rotor III, 31-crossbeam, 32-side slide IV, 33-pincers seat board I, 34-clamp I, 35-side slide V, 36-pincers seat board II, 37-clamp II, 38-side slide VI, 39-pincers seat board III, 40-clamp III, 41-guide rail II, 42-screw set, 43-cylinder block, 44-reorientation cylinder, 45-lathe bed, the original parts of sending to of 46-.
The specific embodiment
Concrete structure of the present invention is: as shown in Figure 2, linear motor stator electric 13, guide rail I 15, guide rail II 41 are fixed on the crossbeam 31.
The concrete structure of hitch I is: slide block I 21, pincers seat board III 39 are fixed on the gusset piece I 19, and side slide VI 38 is fixed on the pincers seat board III 39 by screw.Linear motor rotor I 20 is connected with gusset piece I 19 in the hitch I by screw, and clamp III 40 is fixed on the pincers seat board III 39 in the hitch I, and slide block I 21 cooperates with guide rail I 15, and side slide VI 38 cooperates with guide rail II 41.
The concrete structure of hitch II is: slide block II 25, pincers seat board II 36 are fixed on the gusset piece II 23, and side slide V 35 is fixed on the pincers seat board II 36 by screw.Linear motor rotor II 24 is connected with gusset piece II 23 in the hitch II by screw, and clamp II 37 is fixed on the pincers seat board II 36 in the hitch II, and slide block II 25 cooperates with guide rail I 15, and side slide V 35 cooperates with guide rail II 41.
The concrete structure of hitch III is: slide block III 29, pincers seat board I 33 are fixed on the gusset piece III 28, and side slide IV 32 is fixed on the pincers seat board I 33 by screw.Linear motor rotor III 30 is connected with gusset piece III 28 in the hitch III by screw, and clamp I 34 is fixed on the pincers seat board I 33 in the hitch II, and slide block III 29 cooperates with guide rail I 15, and side slide IV 32 cooperates with guide rail II 41.As shown in Figure 2, hauling-chain frame I 18 is fixed on the gusset piece I 19 in the hitch I by screw, and hauling-chain frame II 22 is fixed on the gusset piece II 23 in the hitch II by screw, and hauling-chain frame III 27 is fixed on the gusset piece III 28 in the hitch III by screw.As shown in Figure 6, drag chain box 14 is fixed on the crossbeam 31 by screw, and an end of the drag chain that is arranged in parallel is separately fixed on each hauling-chain frame, and the other end is fixed on an end of drag chain box 14 side by side.
As shown in Figure 4, linear motor stator electric 13 is fixed on the crossbeam 31, linear motor rotor III 30 can move at linear motor stator electric 13 upper edge directions Xs, gusset piece III 28 and linear motor rotor III 30 are fixed by screw, pincers seat board I 33 is connected with gusset piece III 28 by screw, clamp is fixed on the pincers seat board I 33, in order to guarantee the motion of linear motor rotor III 30 on linear motor stator electric 13 upper edge directions Xs, upside and left side difference fixed guide I 15 and guide rail II 41 at crossbeam, slide block III 29 and gusset piece III 28 are connected by screw, slide block IV 32 and pincers seat board I 33 are connected by screw, can guarantee that like this hitch is accurately mobile on directions X.When linear motor rotor moved on linear motor stator electric 13, clamp I 34, clamp II 37, clamp III 40 can be moved under the drive of hitch.The lead that linear motor rotor I 20 is come out enters drag chain I 16 by hauling-chain frame I 18, the lead that linear motor rotor II 24 is come out enters drag chain II 17 by hauling-chain frame II 22, and the lead that linear motor rotor III 30 is come out enters drag chain III 26 by hauling-chain frame III 27.Three drag chains are supported by drag chain box 14, and the end of three drag chains is fixed on an end of drag chain box 14, is convenient to lead like this and puts at a piece of cloth.
Embodiment 1:X direction provides the rotating tower punch of power to send parts to linear electric motors.
Shown in Fig. 2,4,6: directions X provides the parts of sending to of power to comprise crossbeam 31, guide rail I 15, guide rail II 41, linear motor stator electric 13, hitch I, hitch II, hitch III, linear motor rotor I 20, linear motor rotor II 24, linear motor rotor III 30, clamp I 34, clamp II 37, clamp III 40 with linear electric motors.When linear motor rotor moved on linear motor stator electric, Dui Ying hitch also moved at next piece of drive of linear motor rotor with it, thereby realized that hitch drives the motion of clamp.Because the lead of linear motor rotor I 20 correspondences is arranged by drag chain I 16, the lead of linear motor rotor II 24 correspondences is arranged by drag chain II 17, the lead of linear motor rotor III 30 correspondences is arranged by drag chain III 26, the phase mutually noninterfere does not intersect between three drag chains, thereby guarantee that hitch can separate independently moving, so each clamp can be realized independently moving.
Embodiment 2: the reorientation of sending the parts clamp to of power is provided with linear electric motors.
The servo reorientation of this clamp can be removed and sent (as Fig. 5) in the parts pushes down plate by two reorientation cylinders 44 actions on the lathe bed 45 when reorientation operation originally to.When adjusting the position for one in three clamps, two other keeps clamped condition, promptly a clamp unclamps plate, the position of linear motor rotor on linear motor stator electric on the pincers seat board that the numerical control adjustment is mated, treat this clamp move to the position of setting and clamp after finish a displacement.Needing to keep of the clamping of two clamps under the situation of reorientation to plate, the another one clamp carries out the displacement adjustment, next can be according to actual conditions, see and realize that the clamp reorientation needs several clamp displacements, clamp combination displacement by program setting carries out can reach the requirement to the clamp reorientation.The reorientation that realizes clamp among Fig. 2 need make clamp displacement wherein.For example to realize the displacement of clamp I 34, need carry out following operation: guarantee stepping up of clamp II 37,40 pairs of plates of clamp III, by the corresponding position of linear motor rotor III 30 on linear motor stator electric 13 of programme-control and clamp I 34, clamp I 34 has realized a displacement like this.Clamp plate after 34 displacements of clamp I are finished, can realize the displacement of clamp II 37, clamp III 40 successively, can realize the servo reorientation of clamp after a series of actions is finished like this.
The present invention relates to X-direction provides power and reaches the novel feeding system of realizing the servo reorientation of clamp by the displacement of control clamp with linear electric motors.Belong to Machine Design manufacturing technology field.Comprise crossbeam 31, guide rail I 15, guide rail II 14, linear motor stator electric 13, hitch I, hitch II, hitch III, linear motor rotor I 20, linear motor rotor II 24, linear motor rotor III 30, clamp I 34, clamp II 37, clamp III 40.Have the directions X feed rate of raising and positioning accuracy, remove clamp reorientation link, directly reach original advantage that realizes the effect of clamp reorientation in the parts by the reorientation cylinder of sending to, can be widely used in the digital stamping equipment by the servo reorientation of clamp.The connected mode of drag chain as shown in Figure 6, the lead that comes out from each linear motor rotor passes through corresponding drag chain, each drag chain finally is aggregated into an end of drag chain box, all like this leads reach unified purpose of arranging, the length of each drag chain about equally and can guarantee the displacement of linear motor rotor at directions X, separately between the drag chain support by the drag chain box, guaranteeing that lead that each linear motor rotor comes out is separated from each other not intersect does not interfere, not chiasma interference of lead during the separate motion of each linear motor rotor like this, thereby hitch can separate motion under linear motor rotor drives, and the clamp on it also can separately move.
Claims (3)
1. feeding mechanism of numerical control turret punch press in X-axis direction, it comprises the crossbeam that is arranged on the NC turret punch machine lathe bed, it is characterized in that the guide rail I being arranged in described crossbeam end face arranged outside, a side adjacent with end face is provided with the guide rail II that is parallel to each other with the guide rail I, fixedly installs linear motor stator electric on the crossbeam between described guide rail I and the guide rail II; Described crossbeam is provided with three hitch, hitch straddles on described crossbeam by guide rail I and guide rail II, hitch is provided with slide block and the side slide that cooperates with guide rail I and guide rail II respectively, also be provided with the linear motor rotor that cooperates with linear motor stator electric on the hitch, clamp is fixedly connected on side slide by the pincers seat board.
2. feeding mechanism of numerical control turret punch press in X-axis direction according to claim 1, it is characterized in that described hitch comprises gusset piece, on the gusset piece bottom surface, be fixed with linear motor stator electric successively, pincers seat board and the slide block that cooperates with the guide rail I, the side slide that is fixed with clamp respectively and cooperates in pincers seat board both sides with the guide rail II.
3. feeding mechanism of numerical control turret punch press in X-axis direction according to claim 1, it is characterized in that on each hitch, also being provided with hauling-chain frame, crossbeam is provided with the drag chain box, one end of the drag chain that is arranged in parallel is separately fixed on each hauling-chain frame, the other end is fixed on the drag chain box side by side, and drag chain is used for supporting the lead that is electrically connected with the respective straight electric mover.
Priority Applications (1)
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CN 201010191385 CN101869951B (en) | 2010-06-04 | 2010-06-04 | Feeding mechanism of numerical control turret punch press in X-axis direction |
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CN 201010191385 CN101869951B (en) | 2010-06-04 | 2010-06-04 | Feeding mechanism of numerical control turret punch press in X-axis direction |
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CN101869951A true CN101869951A (en) | 2010-10-27 |
CN101869951B CN101869951B (en) | 2012-08-15 |
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CN 201010191385 Expired - Fee Related CN101869951B (en) | 2010-06-04 | 2010-06-04 | Feeding mechanism of numerical control turret punch press in X-axis direction |
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Cited By (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN102555267A (en) * | 2010-12-31 | 2012-07-11 | 江苏亚威机床股份有限公司 | Adjustment and monitor control mechanism for relative positions of hand clamps of numerical control turret punch press |
CN102975029A (en) * | 2011-09-07 | 2013-03-20 | 祁文军 | Numerically controlled lathe beam |
CN104096777A (en) * | 2013-04-15 | 2014-10-15 | 上海新力机器厂 | Feeding mechanism for numerical control turret punch press |
CN107866464A (en) * | 2016-09-23 | 2018-04-03 | 沙冰娟 | Perpendicularity correction equipment |
CN109047536A (en) * | 2018-06-13 | 2018-12-21 | 潍坊浩德动力机械有限公司 | A kind of feed device |
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JPH09182925A (en) * | 1995-12-28 | 1997-07-15 | Amada Co Ltd | Moving and positioning device of plate stock |
CN101088654A (en) * | 2007-07-13 | 2007-12-19 | 山东法因数控机械股份有限公司 | Plate material re-locating system of numerically controlled plate punch |
CN101185950A (en) * | 2007-12-21 | 2008-05-28 | 江苏金方圆数控机床有限公司 | Transverse double-clamp material feeding mechanism |
JP2009072821A (en) * | 2007-09-24 | 2009-04-09 | Amada Co Ltd | Linear motor type clamp moving mechanism |
-
2010
- 2010-06-04 CN CN 201010191385 patent/CN101869951B/en not_active Expired - Fee Related
Patent Citations (4)
Publication number | Priority date | Publication date | Assignee | Title |
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JPH09182925A (en) * | 1995-12-28 | 1997-07-15 | Amada Co Ltd | Moving and positioning device of plate stock |
CN101088654A (en) * | 2007-07-13 | 2007-12-19 | 山东法因数控机械股份有限公司 | Plate material re-locating system of numerically controlled plate punch |
JP2009072821A (en) * | 2007-09-24 | 2009-04-09 | Amada Co Ltd | Linear motor type clamp moving mechanism |
CN101185950A (en) * | 2007-12-21 | 2008-05-28 | 江苏金方圆数控机床有限公司 | Transverse double-clamp material feeding mechanism |
Cited By (6)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN102555267A (en) * | 2010-12-31 | 2012-07-11 | 江苏亚威机床股份有限公司 | Adjustment and monitor control mechanism for relative positions of hand clamps of numerical control turret punch press |
CN102975029A (en) * | 2011-09-07 | 2013-03-20 | 祁文军 | Numerically controlled lathe beam |
CN104096777A (en) * | 2013-04-15 | 2014-10-15 | 上海新力机器厂 | Feeding mechanism for numerical control turret punch press |
CN107866464A (en) * | 2016-09-23 | 2018-04-03 | 沙冰娟 | Perpendicularity correction equipment |
CN109047536A (en) * | 2018-06-13 | 2018-12-21 | 潍坊浩德动力机械有限公司 | A kind of feed device |
CN109047536B (en) * | 2018-06-13 | 2023-09-05 | 潍坊浩德动力机械有限公司 | Feeding device |
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