CN205668148U - The numerical control sheet material process units that a kind of biobelt is processed simultaneously - Google Patents

Abstract

The utility model discloses the numerical control sheet material process units that a kind of biobelt is processed simultaneously, release including the two parts set gradually according to process sequence the most simultaneously twice strip arranged side by side uncoiler, can strip arranged side by side to twice flattens simultaneously evener, can simultaneously strip arranged side by side to twice carry out overlay film laminating machine, can strip arranged side by side to twice is rectified a deviation simultaneously deviation correcting device, can strip arranged side by side to twice cuts simultaneously flying shearing machine, material-gathering device and material-receiving device；Wherein said material-gathering device includes the first aggregate rack and the second aggregate rack that all can simultaneously collect two blocks of sheet materials arranged side by side being sequentially arranged, and described material-receiving device is arranged in below the first collecting mechanism and the second collecting mechanism.

Description

The numerical control sheet material process units that a kind of biobelt is processed simultaneously

Technical field

This utility model relates to board production equipment technical field, particularly relates to the numerical control sheet material that a kind of biobelt is processed simultaneously Process units.

Background technology

For steel manufacturing and processing enterprise, for the ease of depositing and transporting, steel generally use roller type to pack, and Complete steel plate production line is typically processed with winding for raw material, and current steel plate production line can only be simultaneously to a coil band Being processed, its production efficiency is difficult to increase substantially.

Summary of the invention

The purpose of this utility model is to overcome the deficiencies in the prior art, it is provided that two strips can be added by one simultaneously Work, improves the numerical control sheet material process units that the biobelt of machining accuracy and production efficiency is processed simultaneously.

The numerical control sheet material process units that a kind of biobelt is processed simultaneously, other including the two parts set gradually according to process sequence Release simultaneously twice strip arranged side by side uncoiler, can strip arranged side by side to twice flattens simultaneously evener, can be simultaneously to two Road strip arranged side by side carry out overlay film laminating machine, can strip arranged side by side to twice is rectified a deviation simultaneously deviation correcting device, can be simultaneously to two Road strip arranged side by side carries out flying shearing machine, material-gathering device and the material-receiving device cut；Wherein said described material-gathering device includes successively The first aggregate rack and the second aggregate rack that all can simultaneously collect two blocks of sheet materials arranged side by side arranged, described material-receiving device is arranged in first Below collecting mechanism and the second collecting mechanism.

Further, described deviation correcting device includes rectification machine frame, the carrying roller extended along direction, rectification machine frame both sides, consolidates Dingan County is loaded on the fixing side wheel of rectification machine central rack, the rectification machine horizontal guide rail extended along direction, frame both sides, the company of slip It is connected on rectification machine horizontal guide rail and lays respectively at two rectification machine Mobile bases of fixing side wheel both sides, be installed on rectification machine shifting Move the active side roller on seat and for driving these two rectification machine Mobile bases to reciprocate in opposite directions along rectification machine horizontal guide rail Rectification machine Mobile base translation mechanism, two strips are passed through respectively with simultaneously between the active side roller of fixing side wheel and both sides Two strips are rectified a deviation.

Further, described rectification machine Mobile base translation mechanism includes two respectively with these two rectification machine Mobile base screw threads even The screw mandrel connect and two are respectively used for driving the handwheels that these two screw mandrels rotate, and wherein to be respectively radius bigger for these two screw mandrels Big footpath screw mandrel and the less path screw mandrel of radius, described path screw mandrel runs through big footpath screw mandrel and both deads in line, two Individual described handwheel is positioned at rectification machine frame homonymy and is arranged concentrically.

Further, described flying shearing machine include upper tool post opposing upper and lower and lower slide, for installing knife rest and lower cutter The flying shearing machine frame of frame and for drive upper tool post and lower slide to cut to cutting drive mechanism；Wherein said upper tool post with And the band that the width of lower slide can allow twice arranged side by side passes through, wherein connect respectively between upper tool post both sides and flying shearing machine frame both sides It is connected to the overhead cam of a pair synchronous rotary, between lower slide both sides and flying shearing machine frame both sides, is connected to a pair synchronous rotary Lower cam, described overhead cam and lower cam synchronous backward rotate to realize upper tool post and lower slide to cutting.

Further, described to cut driving framework include that the gear coaxially connected with overhead cam is connected with lower cam coaxial Lower gear, described gear engages each other with lower gear, also include the travelling gear that engages with gear or lower gear with And for drive that described travelling gear rotates to cutting driving motor.

Further, the first aggregate rack and second aggregate rack of described material-gathering device is respectively equipped with the first collecting mechanism and second Collecting mechanism, the height and position of described first collecting mechanism is less than the second collecting mechanism, and the first aggregate rack also first gathers materials at it Mechanism is arranged over conveyer belt, the feed side of described conveyer belt and the feed side of the first collecting mechanism in the same direction, going out of conveyer belt Material side connects with the feed side of the second collecting mechanism.

Further, described first collecting mechanism and the second collecting mechanism all include a pair torr for support sheet material both sides Bar, for drive this described torr bar is come and gone in opposite directions translation hold in the palm bar translation mechanism, positive stop on front side of limit stop sheet material, with And for the positive stop translation mechanism driving described positive stop to translate along the longitudinal direction；Wherein, described torr bar translation mechanism two Including the torr bar mounting seat for being respectively mounted this two strip holders bar, along the cross lead screw of direction, both sides extension and for driving Stating the torr bar translation mechanism that cross lead screw rotates and drive motor, it is anti-that described cross lead screw has two sections of reverse threads and these two sections Threaded with two torr bar mounting seats respectively to screw thread；Described front shelves translation mechanism includes the positive stop for installing positive stop Mounting seat, the longitudinal screw mandrel extended along the longitudinal direction and the front shelves translation mechanism for driving described longitudinal screw mandrel to rotate drive Motor, described longitudinal screw mandrel is threadeded with positive stop mounting seat.

Further, described material-receiving device includes can placing the splicing platform of two blocks of sheet materials arranged side by side, receiver base and use simultaneously In the receiver elevating mechanism driving described splicing platform to lift, described receiver elevating mechanism includes that at least two groups are by a pair even The cross link group of bar cross-articulation formation and receiver lift cylinder, each described cross link group all has a pair same side Point is hinged with splicing platform and receiver base respectively, its another homonymy end points is slided even with splicing platform and receiver base respectively Connecing, the cylinder body of described receiver lift cylinder is fixedly connected on a wherein connecting rod of cross link group, its piston rod and friendship Another root connecting rod of fork connection rod set is fixing to be connected, and the folding amplitude being controlled cross link group by receiver lift cylinder is finally real Existing splicing platform lifting.

The beneficial effects of the utility model are: the numerical control sheet material that a kind of biobelt of the present utility model is processed simultaneously produces dress Put, its uncoiler with two uncoilings simultaneously, and its evener, laminating machine, deviation correcting device, flying shearing machine all can allow two Strip is passed through simultaneously and it is carried out corresponding operation process, and its material-gathering device and material-receiving device then can be simultaneously to two strakes Material carries out gathering materials and splicing, realizes being processed two strips by the cooperation of said apparatus simultaneously, improve machining accuracy and Production efficiency.

Accompanying drawing explanation

Fig. 1 is side view of the present utility model.

Fig. 2 is the perspective view of deviation correcting device of the present utility model.

Fig. 3 is the top view of deviation correcting device of the present utility model.

Fig. 4 is big footpath screw mandrel and the installation diagram of path screw mandrel of deviation correcting device of the present utility model.

Fig. 5 is the perspective view of flying shearing machine of the present utility model.

Fig. 6 is the front view of flying shearing machine of the present utility model.

Fig. 7 is the side view of flying shearing machine of the present utility model.

Fig. 8 is the perspective view of material-gathering device of the present utility model.

Fig. 9 is the side view of the second aggregate rack of material-gathering device of the present utility model.

Figure 10 is the top view of the second aggregate rack of material-gathering device of the present utility model.

Figure 11 is the perspective view of material-receiving device of the present utility model.

Figure 12 is the front view of material-receiving device of the present utility model.

Wherein, 1-uncoiler, 2-evener, 3-laminating machine, 4-deviation correcting device, 41-rectification machine frame, 411-rectification machine water Level gauge, 42-carrying roller, 43-fixes side wheel, 44-rectification machine Mobile base, 441-active side roller, 451-big footpath screw mandrel, 452- Path screw mandrel, 453-handwheel, 5-flying shearing machine, 51-upper tool post, 52-lower slide, 53-flying shearing machine frame, 54-overhead cam, under 55- Cam, 56-gear, 57-lower gear, 58-travelling gear, 59-is to cutting driving motor, and 6-material-gathering device, 61-first gathers materials Frame, 611-conveyer belt, 62-the second aggregate rack, 63a-the first collecting mechanism, 63b-the second collecting mechanism, 631-holds in the palm bar, 6321- Torr bar mounting seat, 6322-cross lead screw, 6323-torr bar translation mechanism drives motor, 633-positive stop, and 6341-positive stop is installed Seat, 6342-longitudinal direction screw mandrel, before 6343-, shelves translation mechanism drives motor, and 7-material-receiving device, 71-splicing platform, at the bottom of 72-receiver Seat, 73-receiver elevating mechanism, 731-cross link group, 7311-connecting rod, 732-receiver lift cylinder.

Detailed description of the invention

Make the most specifically in conjunction with the drawings and specific embodiments technical scheme required for protection to this utility model Bright.

Seeing shown in accompanying drawing 1, the numerical control sheet material process units that a kind of biobelt of the present embodiment is processed simultaneously, including according to work Two parts that skill order sets gradually are released the uncoiler 1 of twice strip arranged side by side the most simultaneously, can strip arranged side by side to twice be entered simultaneously Row leveling evener 2, strip arranged side by side to twice can carry out the laminating machine 3 of overlay film, can strip arranged side by side to twice enter simultaneously simultaneously The deviation correcting device 4 of row correction, can strip arranged side by side to twice cuts simultaneously flying shearing machine 5, material-gathering device 6 and material-receiving device 7；Wherein said described material-gathering device 6 includes the first aggregate rack 61 He that all can simultaneously collect two blocks of sheet materials arranged side by side being sequentially arranged Second aggregate rack 62, described material-receiving device 7 is arranged in below the first collecting mechanism 63a and the second collecting mechanism 63b.

Seeing shown in accompanying drawing 2 to accompanying drawing 4, the deviation correcting device 4 of the present embodiment includes rectification machine frame 41, along rectification machine frame 41 direction, both sides extend carrying roller 42, be fixedly installed in the fixing side wheel 43 in the middle part of rectification machine frame 41, along frame two side To the rectification machine horizontal guide rail 411 extended, it is slidably connected on rectification machine horizontal guide rail 411 and lays respectively at fixing side wheel 43 Two rectification machine Mobile bases 44 of both sides, the active side roller 441 being installed on rectification machine Mobile base 44 and for drive this two Rectification machine Mobile base 44 translation mechanism that individual rectification machine Mobile base 44 reciprocates in opposite directions along rectification machine horizontal guide rail 411,

Wherein, described rectification machine Mobile base 44 translation mechanism include two respectively with these two rectification machine Mobile base 44 screw threads The screw mandrel connected and two handwheels 453 being respectively used for driving these two screw mandrels rotations, wherein these two screw mandrels are respectively half Big footpath screw mandrel 451 that footpath is bigger and the less path screw mandrel 452 of radius, described path screw mandrel 452 run through big footpath screw mandrel 451 and Both deads in line, two described handwheels 453 are positioned at rectification machine frame 41 homonymy and are arranged concentrically.Use said structure After, in rectification machine frame 41 the same side, two rectification machine Mobile bases 44 can be regulated respectively, it is to avoid staff is in correction Machine frame 41 moves between both sides, improves operation ease.

The deviation correcting device 4 of the present embodiment, the middle part of its rectification machine frame 41 is provided with fixing side wheel 43, and is installed on and entangles Active side roller 441 on machine Mobile base 44 partially, by rectification machine Mobile base 44 translation mechanism regulation fixed idler whell and movable rolling Spacing between wheel so that it is adapt to the strip of steel of multiple different in width.Article two, strip is respectively in fixing side wheel 43 and both sides By two strips are rectified a deviation simultaneously between active side roller 441.Utilize active side roller 441 and fixing side wheel 43 The strip of steel passed through is carried out spacing thus realize the correction to strip of steel.

Seeing shown in accompanying drawing 5 to accompanying drawing 7, the flying shearing machine 5 described in flying shearing machine 5 of the present embodiment include upper slitter opposing upper and lower Frame 51 and lower slide 52, for installing the flying shearing machine frame 53 of knife rest 51 and lower slide 52 and for driving upper tool post 51 With lower slide 52 to cut to cutting drive mechanism.

The band that the width of wherein said upper tool post 51 and lower slide 52 can allow twice arranged side by side passes through, wherein upper tool post 51 The overhead cam 54 of a pair synchronous rotary, lower slide 52 both sides and flying shear it is connected between both sides and flying shearing machine frame 53 both sides Being connected to the lower cam 55 of a pair synchronous rotary between machine frame 53 both sides, described overhead cam 54 is synchronize with lower cam 55 anti- To rotating to realize upper tool post 51 and lower slide 52 to cutting.

The overhead cam 54 of a pair synchronous rotary it is connected between upper tool post 51 both sides and flying shearing machine frame 53 both sides, under The lower cam 55 of a pair synchronous rotary, wherein overhead cam 54 it are connected between knife rest 52 both sides and flying shearing machine frame 53 both sides Both sides be rotationally connected with upper tool post 51 and flying shearing machine frame 53 respectively the height making upper tool post 51 with overhead cam 54 rotate produce Cyclically-varying, the both sides of lower cam 55 be rotationally connected with lower slide 52 and flying shearing machine frame 53 respectively the height making lower bearing bracket with Lower cam 55 rotates and produces cyclically-varying, in addition overhead cam 54 and lower cam 55 synchronous backward rotate with realize upper tool post 51 and Lower slide 52 lifts in opposite directions thus realizes cutting.

Described to cut driving framework include that the gear 56 coaxially connected with overhead cam 54 is coaxially connected with lower cam 55 Lower gear 57, described gear 56 engages each other with lower gear 57, also includes the biography engaged with gear 56 or lower gear 57 Moving gear 58 and for driving what described travelling gear 58 rotated to drive motor 59 to cutting.

See shown in accompanying drawing 8 to accompanying drawing 10, the first aggregate rack 61 and the second aggregate rack 62 of the material-gathering device 6 of the present embodiment Being respectively equipped with the first collecting mechanism 63a and the second collecting mechanism 63b, the height and position of described first collecting mechanism 63a is less than the Two collecting mechanism 63b, the first aggregate rack 61 is also arranged over conveyer belt 611, described conveyer belt at its first collecting mechanism 63a The feed side of 611 and the feed side of the first collecting mechanism 63a in the same direction, the exit side of conveyer belt 611 and the second collecting mechanism 63b's Feed side connects.

Described first collecting mechanism 63a and the second collecting mechanism 63b all includes a pair torr for supporting plate 442 material both sides Bar 631, for drive this to described torr bar 631 in opposite directions come and go translation hold in the palm bar 631 translation mechanism, on front side of limit stop sheet material Positive stop 633 and for driving positive stop 633 translation mechanism that described positive stop 633 translates along the longitudinal direction；Wherein, institute State torr bar 631 translation mechanism two and include the torr bar mounting seat 6321 for being respectively mounted this two strip holders bar 631, along direction, both sides The cross lead screw 6322 extended and the torr bar translation mechanism for driving described cross lead screw 6322 to rotate drive motor 6323, Described cross lead screw 6322 has two sections of reverse threads and this two sections of reverse threads hold in the palm bar mounting seat 6321 spiral shells with two respectively Stricture of vagina connects；Described front shelves translation mechanism includes the positive stop mounting seat 6341 for installing positive stop 633, extends along the longitudinal direction Longitudinal screw mandrel 6342 and for driving the front shelves translation mechanism driving motor 6343 that described longitudinal screw mandrel 6342 rotates, described Longitudinal screw mandrel 6342 is threadeded with positive stop mounting seat 6341.

Seeing shown in accompanying drawing 11 and accompanying drawing 12, the material-receiving device 7 of the present embodiment includes can placing two blocks of sheet materials arranged side by side simultaneously Splicing platform 71, receiver base 72 and for driving the receiver elevating mechanism 73 that described splicing platform 71 lifts, described splicing Machine elevating mechanism 73 includes cross link group 731 and the splicing that at least two groups are formed by pair of links 7311 cross-articulation Machine lift cylinder 732, each described cross link group 731 all have a pair homonymy end points respectively with splicing platform 71 and receiver base 72 Hinged, its another homonymy end points is slidably connected with splicing platform 71 and receiver base 72 respectively, described receiver lift cylinder The cylinder body of 732 is fixedly connected on a wherein connecting rod 7311 of cross link group 731, its piston rod and cross link group 731 Another root connecting rod 7311 fixing connect, the folding amplitude being controlled cross link group 731 by receiver lift cylinder 732 is final Realize splicing platform 71 to lift.

The process of material-gathering device 6 and material-receiving device 7 cooperating is as follows in the present embodiment: material-gathering device 6 when gathering materials, Two blocks of sheet materials arranged side by side enter in the first collecting mechanism 63a or the second collecting mechanism 63b, and wherein two torr bars 631 are by torr bar 631 The drive of translation mechanism moves towards, until the spacing between two torr bars 631 and strip width be adaptive thus supporting plate 442 material two Side, positive stop 633 moves down dynamic correct position in the drive of positive stop 633 translation mechanism and limits the position of sheet material simultaneously；When two pieces After sheet material position in collecting mechanism puts in place, two torr bars 631 reversely move under the drive of torr bar 631 translation mechanism, two torr Spacing between bar 631 increases until sheet material falls to material-receiving device 7 between two torr bars 631.Material-receiving device 7 is in splicing Time, sheet material is fallen splicing platform 71 from material-gathering device 6, and the receiver lift cylinder 732 in receiver elevating mechanism 73 drives to be handed over Two connecting rods 7311 in fork connection rod set 731 are separated from each other, and the height of splicing platform 71 declines two boards material under Primary Receive, due to The height of splicing platform 71 declines because hereafter two boards material can just fall to forming sheet material lamination, final splicing on front two boards material Platform 71 drops to lowest order, and sheet material also stacks to maximum quantity.

The numerical control sheet material process units that a kind of biobelt of the present embodiment is processed simultaneously, its there is opening of two simultaneously uncoilings Volume machine 1, and its evener 2, laminating machine 3, deviation correcting device 4, flying shearing machine 5 all can allow two strips simultaneously by and it is carried out Corresponding operation processes, and two strake materials then can be gathered materials and splicing by its material-gathering device 6 and material-receiving device 7 simultaneously, logical The cooperation crossing said apparatus realizes being processed two strips simultaneously, improves machining accuracy and production efficiency.

The embodiment of the above is only preferred embodiment of the present utility model, and this utility model not does any form On restriction.Any those of ordinary skill in the art, without departing under technical solutions of the utility model ambit, all can profit With the technology contents of the disclosure above, technical solutions of the utility model are made more possible variation and retouching, or be revised as equivalent The Equivalent embodiments of change.Therefore all contents without departing from technical solutions of the utility model, made according to the thinking of this utility model Equivalent equivalence change, all should be covered by protection domain of the present utility model.

Claims (8)

1. the numerical control sheet material process units that a biobelt is processed simultaneously, it is characterised in that: include setting gradually according to process sequence Two parts release the most simultaneously twice strip arranged side by side uncoiler (1), can strip arranged side by side to twice flattens simultaneously leveling Machine (2), can strip arranged side by side to twice is rectified a deviation simultaneously deviation correcting device (4), strip arranged side by side to twice can carry out overlay film simultaneously Laminating machine (3), can strip arranged side by side to twice cuts simultaneously flying shearing machine (5), material-gathering device (6) and material-receiving device (7)；Wherein said material-gathering device (6) includes the first aggregate rack (61) that all can simultaneously collect two blocks of sheet materials arranged side by side being sequentially arranged With the second aggregate rack (62), described material-receiving device (7) is arranged under the first collecting mechanism (63a) and the second collecting mechanism (63b) Side.

The numerical control sheet material process units that a kind of biobelt the most according to claim 1 is processed simultaneously, it is characterised in that: described Deviation correcting device (4) includes rectification machine frame (41), the carrying roller (42) extended along rectification machine frame (41) direction, both sides, fixed installation In rectification machine frame (41) middle part fixing side wheel (43), along direction, frame both sides extend rectification machine horizontal guide rail (411), It is slidably connected on rectification machine horizontal guide rail (411) and lays respectively at two rectification machine Mobile bases of fixing side wheel (43) both sides (44) the active side roller (441) that, is installed on rectification machine Mobile base (44) and be used for driving this two rectification machine Mobile bases (44) rectification machine Mobile base (44) translation mechanism reciprocated in opposite directions along rectification machine horizontal guide rail (411), two strips are respectively By two strips are rectified a deviation simultaneously between the active side roller (441) of fixing side wheel (43) and both sides.

The numerical control sheet material process units that a kind of biobelt the most according to claim 2 is processed simultaneously, it is characterised in that entangle described in: Partially machine Mobile base (44) translation mechanism include two screw mandrels threadeded with these two rectification machine Mobile bases (44) respectively and Two are respectively used for driving the handwheel (453) that these two screw mandrels rotate, and wherein these two screw mandrels are respectively the big footpath that radius is bigger Screw mandrel (451) and the less path screw mandrel (452) of radius, described path screw mandrel (452) run through big footpath screw mandrel (451) and both Dead in line, two described handwheels (453) are positioned at rectification machine frame (41) homonymy and are arranged concentrically.

The numerical control sheet material process units that a kind of biobelt the most according to claim 1 is processed simultaneously, it is characterised in that: described Flying shearing machine (5) include upper tool post opposing upper and lower (51) and lower slide (52), are used for installing knife rest (51) and lower slide (52) Flying shearing machine frame (53) and being used for drive upper tool post (51) and lower slide (52) to cut to cutting drive mechanism；Wherein institute The band that the width stating upper tool post (51) and lower slide (52) can allow twice arranged side by side passes through, wherein upper tool post (51) both sides with fly The overhead cam (54) of a pair synchronous rotary, lower slide (52) both sides and flying shearing machine it are connected between shearing machine frame (53) both sides The lower cam (55) of a pair synchronous rotary, described overhead cam (54) and lower cam (55) it is connected between frame (53) both sides Synchronous backward rotates to realize upper tool post (51) and lower slide (52) to cutting.

The numerical control sheet material process units that a kind of biobelt the most according to claim 4 is processed simultaneously, it is characterised in that: described right Cut and drive framework to include the lower gear coaxially connected with the coaxially connected gear (56) of overhead cam (54) and lower cam (55) (57), described gear (56) engages each other with lower gear (57), also includes and engages with gear (56) or lower gear (57) Travelling gear (58) and being used for drive that described travelling gear (58) rotates to cutting driving motor (59).

The numerical control sheet material process units that a kind of biobelt the most according to claim 1 is processed simultaneously, it is characterised in that: described collection First aggregate rack (61) and second aggregate rack (62) of material device (6) are respectively equipped with the first collecting mechanism (63a) and second and gather materials Mechanism (63b), the height and position of described first collecting mechanism (63a) is less than the second collecting mechanism (63b), the first aggregate rack (61) Also it is arranged over conveyer belt (611) at its first collecting mechanism (63a), the feed side of described conveyer belt (611) and the first collection In the same direction, the exit side of conveyer belt (611) and the feed side of the second collecting mechanism (63b) connect the feed side of material mechanism (63a).

The numerical control sheet material process units that a kind of biobelt the most according to claim 6 is processed simultaneously, it is characterised in that: described One collecting mechanism (63a) and the second collecting mechanism (63b) all include a pair torr bar (631) for support steel plate both sides, are used for Drive this that described torr bar (631) comes and goes translation in opposite directions and hold in the palm bar translation mechanism, positive stop on front side of limit stop steel plate And be used for the positive stop translation mechanism driving described positive stop (633) to translate along the longitudinal direction (633)；Wherein, described torr bar Translation mechanism two includes torr bar mounting seat (6321) for being respectively mounted this two strip holder bar (631), extends along direction, both sides Cross lead screw (6322) and the torr bar translation mechanism that is used for driving described cross lead screw (6322) to rotate drive motor (6323), described cross lead screw (6322) has two sections of reverse threads and this two sections of reverse threads are installed with two torr bars respectively Seat (6321) is threaded；Described positive stop translation mechanism includes the positive stop mounting seat for installing positive stop (633) (6341) longitudinal screw mandrel (6342) of extending along the longitudinal direction and be used for the front driving described longitudinal screw mandrel (6342) to rotate Block translation mechanism drives motor (6343), and described longitudinal screw mandrel (6342) threadeds with positive stop mounting seat (6341).

The numerical control sheet material process units that a kind of biobelt the most according to claim 1 is processed simultaneously, it is characterised in that connect described in: Material device (7) includes placing the splicing platform (71) of two blocks of sheet materials arranged side by side, receiver base (72) and being used for simultaneously and drives described The receiver elevating mechanism (73) that splicing platform (71) lifts, described receiver elevating mechanism (73) includes that at least two groups are by a pair The cross link group (731) of connecting rod (7311) cross-articulation formation and receiver lift cylinder (732), each described intersection is even Bar group (731) all has a pair homonymy end points hinged with splicing platform (71) and receiver base (72) respectively, its another to same side Point is slidably connected with splicing platform (71) and receiver base (72) respectively, and the cylinder body of described receiver lift cylinder (732) is fixed It is connected on a wherein connecting rod (7311) of cross link group (731), its piston rod and another root of cross link group (731) Connecting rod (7311) is fixing to be connected, and the folding amplitude being controlled cross link group (731) by receiver lift cylinder (732) is finally real Existing splicing platform (71) lifting.