CN2915495Y - Joint device for non-drying glue rotary printing machine - Google Patents

Abstract

The utility model relates to a joint device for label rotary press, and is characterized in that: the manual adjustable tension device is arranged at the lower part of G side wallboard, the surface sizing device is located at the upside of the manual adjustable tension device, the cooling traction roll plastic device is arranged on the right side of the surface sizing device, AC servo motor traction device is arranged at the left top of the surface sizing plastic device, a deviation rectifier is arranged on the upper right of AC servo motor traction device, a press mechanism is arranged on the right side between the surface sizing device and AC servo motor traction device, and a tectorial membrane device is arranged at the upper right of the press mechanism, the transmission agent 9 is arranged at the outside of the G side wallboard 8. The utility model has the advantages of that can realize the common web to be directly printed out sticky labels in the same printing press, with simple structure, convenient operation, low costs and reasonable process, by which two webs can be bonded tightly.

Description

The laminating apparatus that is used for adhensive rotary printer

Technical field

The utility model relates to a kind of laminating apparatus that is used for adhensive rotary printer, belongs to the printing machinery technical field.

Background technology

Adhesive label in the market, being generally new label printing factory buys to adhesive sticker body paper factory and finishes gluing and behind the compound self-adhesive paper, on sticky printing machine, be printed to the needed adhesive label of user again, such label is by two companies, two kinds of equipment, and twice technology is finished up and down, time is long, the cost height, intermediate link is many, and is wayward.And for the printing of the adhesive label of some multilayers, technology can be more loaded down with trivial details, and cost is higher.

Summary of the invention

To be that invention is a kind of realize that on same printing machine general roll web directly is printed to adhesive label to the purpose of this utility model, can realize the laminating apparatus that is used for adhensive rotary printer that two winding drum paper is fitted.

For realizing above purpose, the technical solution of the utility model provides a kind of laminating apparatus that is used for adhensive rotary printer, it is characterized in that, by the manual adjustments tensioner, sizer, cooling carry-over pinch rolls device, AC servo motor draw-gear, deviation correcting device, pressing mechanism, film covering device, the G framed side wallboard, transmission system is formed, the manual adjustments tensioner is positioned at the bottom of G framed side wallboard, sizer is positioned at the top of manual adjustments tensioner, cooling carry-over pinch rolls device is positioned at the right side of sizer, AC servo motor draw-gear places the upper left quarter of sizer, deviation correcting device places the upper right quarter of AC servo motor draw-gear, the right side of pressing mechanism between sizer and AC servo motor draw-gear, film covering device is located at the upper right quarter of pressing mechanism, and transmission system is positioned at the outside of G framed side wallboard.

The utility model is located at printing back, position, Duo a sheet feeding section than traditional rotary press, and paper supply is compound in laminating apparatus after printing simultaneously when two sheet feeding sections, through after just can be made into adhesive label after processing.

Described AC servo motor draw-gear is to adopt the AC servo motor directly to drive, by automatic adjusting paper tension size, last paper, down during the paper applying on paper the tension force basis is provided.When overtension, the rotating speed of draw rollers strengthens, and when tension force was less than normal, the rotating speed of draw rollers descended, and its tension adjustment is not influenced by the transmission accuracy of gear, belt, and is highly stable.

Described deviation correcting device be last paper, when down paper is fitted on the trimming correction of deviation of paper.

Described manual adjustments tensioner is the effect that is reached manual adjustments tension force by the relative position of two carry-over pinch rolls of a pair of worm and gear control, and it provides the tension force basis for following paper when last paper, following paper applying.

Described sizer is manually to regulate the relative position of gluing pallet and backing roll by the cylinder control and the wheel of shaking the hand, thereby PUR can be coated in equably the surface through the following paper of backing roll traction.

Described cooling device is installed in backing roll and the anilox roll, its objective is that the paper surface produces the negative effect that distortion brings because of being heated to paper after coating PUR in order to reduce down.

Described pressing mechanism is that the position by the manual adjustments handlebar makes two gears engaged and separates the action that overlays of regulating chill roll and anilox roll.

Described transmission device is positioned at outside the G framed side wallboard, and it is the transmission by several gears engaged and synchronous belt, thereby realizes the synchronous rotation of carry-over pinch rolls, chill roll and anilox roll.

The described paper system of walking is made up of the several guide bars between G framed side wallboard and O framed side wallboard.

When printing monovolume roll web, gluing pallet and backing roll, chill roll and anilox roll are in disengaged condition, and do not need the roll web gluing and overlay this moment.

When the monovolume roll web of printing when needing overlay film, gluing pallet and backing roll are in disengaged condition, and chill roll and anilox roll are in fit-state, and roll web that has printed and the PVC film that pulls out in the film covering device are through overlaying with regard to applying together.

When two volume roll webs printed simultaneously, gluing pallet and backing roll, chill roll and anilox roll all were in fit-state, and this moment, the following paper and the last paper of surface sizing fit together through just overlaying.

When two volume roll webs print simultaneously and need overlay film, gluing pallet and backing roll, chill roll and anilox roll all are in fit-state, this moment, the following paper, the PVC film that pulls out through the last paper of trimming correction and servo motor control tension adjustment, in the film covering device of surface sizing were fitted together through just overlaying, through after process the adhesive label that just can be made into a kind of multilayer.

The utility model has the advantages that and can realize that on same printing machine general roll web directly is printed to adhesive label, simple in structure, easy to operate, with low cost, technological process rationally, can realize two winding drum paper is fitted.

Description of drawings

Fig. 1 is the laminating apparatus O side structure schematic diagram that is used for adhensive rotary printer;

Fig. 2 is the laminating apparatus G side structure schematic diagram that is used for adhensive rotary printer;

Fig. 3,4 is a manual adjustments tensioner structural representation;

Fig. 5 is the sizer structural representation;

Fig. 6 is a sizer side structure schematic diagram;

Fig. 7 is cooling carry-over pinch rolls apparatus structure schematic diagram;

Fig. 8 is the pressing mechanism structural representation;

Fig. 9 is the drive system structure schematic diagram.

The specific embodiment

The utility model is described in further detail below in conjunction with drawings and Examples.

Embodiment

As shown in Figure 1, 2, for being used for the laminating apparatus structural representation of adhensive rotary printer, the described laminating apparatus that is used for adhensive rotary printer is made up of manual adjustments tensioner 1, sizer 2, cooling carry-over pinch rolls device 3, AC servo motor draw-gear 4, deviation correcting device 5, pressing mechanism 6, film covering device 7, G framed side wallboard 8, transmission system 9 etc.Manual adjustments tensioner 1 is positioned at the bottom of G framed side wallboard 8, sizer 2 is positioned at the top of manual adjustments tensioner 1, cooling carry-over pinch rolls device 3 is positioned at the right side of sizer 2, AC servo motor draw-gear 4 places the upper left quarter of sizer 2, deviation correcting device 5 places the upper right quarter of AC servo motor draw-gear 4, the right side of pressing mechanism 6 between sizer 2 and AC servo motor draw-gear 4, film covering device 7 places the upper right quarter of pressing mechanism 6, and transmission system 9 is positioned at the outside of G framed side wallboard 8.

Shown in Fig. 3,4, the manual adjustments tensioner is made up of seat 10, guide roller mandrel saddle 11, guide roller support plate 12, guide roller 13, guide roller mandrel 14, baffle ring 15, baffle ring 16, support plate 17, worm gear guard shield 18, worm gear 19, worm-gear toothing adjustment seat 20, worm screw 21, worm-wheel shaft 22, guide roller support plate 23, baffle ring 24, axle 25, guide roller 26, dish 27, pillar 28, handwheel 29.

By seat 10 support plate 17 is fixed in the outside of G framed side wallboard by pillar 28, dish 27 is fixed on the pillar 28, its effect is to catch the glue that spills accidentally in the sizer, prevent the stock below the set-off, be installed on the axle 25 behind the dress bearing of guide roller 26 two ends, and it is fixing with baffle ring 24, axle 25 1 ends are fixed on G framed side wallboard place by guide roller mandrel saddle 11, the other end passes support plate 17, and be fixed by support plate 17 inboards with baffle ring 16, guide roller support plate 12,23 upsides are through respectively on the axle 25, place guide roller 26 both sides and fastening with screw, downside is through on the guide roller mandrel 14, is installed on the guide roller mandrel 14 behind the guide roller 13 dress bearings, and fastening in both sides with baffle ring 15.Axle 25 passes on the spindle nose in support plate 17 outsides with the fixing worm gear 19 of flat key, with its engagement be worm screw 21, worm screw 21 is installed on the worm-gear toothing adjustment seat 20, worm-wheel shaft 22 1 ends are fixed on the worm screw 21 with pin, the other end is installed handwheel 29, with worm gear guard shield 18 it is covered at last.

When rotating handwheel 29, by the engaged transmission of worm and gear, the relative position of guide roller 13 relative guide rollers 26 is changed, thereby reach the effect of manual adjustments tension force.

As Fig. 5, shown in 6, be the sizer structural representation, described sizer 2 is by cover 30, G side installing plate 31, take over 32, nut 33, anterior G side support plate 34, adjust spiro rod support 35, take over 36, pin 37, cylinder joint 38, cylinder support arm 39, bearing block 40, cylinder mount pad 41, cylinder props up piece 42, guide finger 43, handwheel 44, pressure adjustment screw 45, fulcrum 46, adjust screw rod 47, handwheel 48, axle 49, anilox roll O framed side wallboard 50, support plate 51, baffle ring 52, axle bed 53, handwheel 54, handwheel 55, bearing gland 56, gluing member 57, flange 58, adjusting screw(rod) 59, adjust spiro rod support 60, anterior O side support plate 61, support plate 62, cylinder seat 63, adjust screw rod 64, adjust spiro rod support 65, adjusting spiro rod support 66 forms.

Support plate 51 is screwed in anilox roll O framed side wallboard 50 upper left sides, pass support plate 51 respectively behind the axle 49 dress bearings, 8 bearing block 40 on the G framed side wallboard, pass on the spindle nose of support plate 51 mounting flange 58 successively, baffle ring 52, axle bed 53, handwheel 54, handwheel 55, bearing gland 56, cylinder support arm 39 1 ends are screwed on the axle head of the axle 49 that passes the G framed side wallboard, at the opposite side of cylinder support arm 39 adapter 36 is installed successively, nut 33, adapter 32 and cover 30, shake the hand in the middle of the axle 49 and take turns 48, wheel 48 fastening adjustment screw rods 47 pass axle 49 and fulcrum 46 with shaking the hand, and use fixed by nut, one pressure-adjusting screw 45 is all arranged in the handwheel both sides, it is fixed on the axle 49, withstand on fulcrum 46 end faces, respectively there is a guide finger 43 in two pressure-adjusting screws, 45 outsides of dress handle 44, it is fixed on the axle 49, pass fulcrum 46, fulcrum 46 two axial ends are installed anterior G side support plate 34 and anterior O side support plate 61 respectively, two support plate downsides are installed the G side respectively support plate 31 are installed, the O side is installed support plate 62, and it is gluing member 57 is fixing with screw, adjusting spiro rod support 35 is screwed forwardly on the G side support plate, adjust screw rod 64 by adjusting spiro rod support 65, adjustment spiro rod support 66 withstands on to be adjusted on the spiro rod support 35, thereby regulates the position of anterior G side support plate 31.Adjust screw rod 59 and withstand on the position of regulating anterior O side support plate 61 on another support plate by the adjustment spiro rod support 60 that is installed on the anterior O side support plate 61, cylinder is installed on the cylinder mount pad 41, cylinder props up piece 42 and is screwed on cylinder mount pad 41, and cylinder jointing 38 usefulness pins 37 are connected with cylinder seat 63 on being fixed on anterior G side support plate 34.

When cylinder moved, anterior G side support plate 34 coupled devices moved together, thereby regulated the oblique position of gluing pallet, and left and right sides withstands with the adjustment screw.When handwheel 48 rotates, because the guide effect of guide finger 43 makes the direction operation along guide finger 43 of fulcrum 46 and its device that connects together, thereby regulate the upper-lower position of gluing pallet, the adjustment screw with both sides withstands at last.

Be illustrated in figure 7 as cooling carry-over pinch rolls device, form by anilox roll O framed side wallboard 50, backing roll G framed side wallboard 67, spacer ring 68, divider 69, guide roller 70, axle 71, baffle ring 72, backing roll 73, adapter 74, axle head gland 75, outer side pressure trunk bearing gland 76, interior side pressure trunk bearing gland 77, pillar 78, pillar 79.

Several pillars 78, pillar 79 links to each other anilox roll O framed side wallboard 50 with G framed side wallboard 8, backing roll 73 1 ends dress bearing is placed in the anilox roll O framed side wallboard 50, and with axle head door 75, outer side pressure trunk bearing gland 76, outer side pressure trunk bearing gland 77 blocks, prevent its axial float, be installed in the backing roll G framed side wallboard 67 behind its other end cover spacer ring 68, backing roll G framed side wallboard 67 is screwed in G framed side wallboard 8 inboards, backing roll 73 built-in adapters 74, cooling back installation has been installed in its inside, its objective is that the PUR of coating for paper surface under reducing produces the influence of distortion to paper, and link to each other with outside input and output cooling tube, with the divider 69 that is fixed on G framed side wallboard 8 outsides cooling tube is fixed, prevent that it from rotating with backing roll 73 and the cooling fluid carrier pipe is twisted off, backing roll 73 lower right sides are auxiliary traction roller arrangements, and it is by guide roller 70, axle 71, baffle ring 72 is formed, and by the bearing block integral installation at two ends between anilox roll O framed side wallboard 50 and G framed side wallboard 8.

As shown in Figure 8, be the pressing mechanism structural representation, described pressing mechanism by anilox roll support plate 80, take off gear 81, gear 82, gear 83, block 84, transition gear 85, transition gear seat 86, gear 87, take over 88, anilox roll 89, chill roll 90, bearing gland 91, anilox roll support plate 92, bearing gland 93, gear 94, spring 95, pin 96, spindle nose 97, handle pole socket 98, handwheel seat 99, handlebar 100, take off gear 101, depoling axle 102, pillar 103, guiding mandrel roller 104, guide roller 105, baffle ring 106 form.

Several pillars 103 link to each other anilox roll support plate 80 with anilox roll support plate 92, and integral body placed G framed side wallboard 8 inboards, about being installed in behind the guide roller 105 dress bearings on the guiding mandrel roller 104 of two anilox roll support plates, and it is fastening with baffle ring 106 in both sides, be fixed on the anilox roll support plate of the left and right sides behind the anilox roll 89 dress bearings, and at O side bearing gland 93, bearing gland 91 is fixing, prevent its axial float, install and fix gear 87 in G side inboard with key, with its engagement be transition gear 85 and gear 83, gear 83 usefulness flat keys are installed on the axle 84, and transition gear 85 is installed on the transition gear seat 86.

Install in the anilox roll 89 and take over 88, link to each other with outside input and output cooling tube, and cooling tube is fixed with the divider that is fixed on the G framed side wallboard outside, prevent that it from rotating with anilox roll 89 and the cooling fluid carrier pipe is twisted off, it directly over the anilox roll 89 chill roll 90, behind its two axial ends dress bearing gear 82 is installed, gear 94, depoling axle 102 1 ends places in the anilox roll support plate 80, the other end links to each other with the spindle nose that passes anilox roll support plate 92 97 that is connected with pin, handwheel seat 99 is installed on the spindle nose 97 successively, handle pole socket 98, pin 96, spring 95, handlebar 100, and take off gear 81 and be keyed on the depoling axle by the inboard place of anilox roll support plate 80, and take off gear 101 and be screwed at the inboard place of anilox roll support plate 92, when turning handle bar 100, passing through depoling axle 102 two ends take off gear 81,101 with the gear 82 at chill roll 90 two ends, gear 94 meshes and separates the action that overlays of regulating chill roll 90 and anilox roll 89.

As shown in Figure 9, be the drive system structure schematic diagram, described transmission system is by gear 83, axle 84, transition gear 85, transition gear seat 86, gear 87, anilox roll 89, motor erection support 107, motor gear 108, gear 109, belt pulley 110, regulating wheel 111, regulating wheel mandrel 112, synchronous pulley 113, transition pulley mandrel 114, synchronous pulley 115, regulating wheel 116, synchronous pulley seat 117, intermediate zone wheel seat 118, transition synchronous pulley 119, drive synchronous pulley 120, transition gear seat 121, transition synchronous pulley 122, transition gear 123, just reversing adjustable plate backing pin 124, synchronous pulley 125, adjustable plate fulcrum gear 126, synchronous pulley 127, regulating wheel mandrel 128, carry-over pinch rolls gear 129, carry-over pinch rolls 130, chill roll synchronous pulley 131, chill roll 132 is formed.

Axle 84 is passing the installed inside gear 83 of G framed side wallboard 8, belt pulley 110 is installed in the outside, regulating wheel 111 is installed on the regulating wheel mandrel 112, synchronous pulley 113 and synchronous pulley 115 are installed on the transition pulley mandrel 114, regulating wheel 116 is installed on the synchronous pulley seat 117, after linking together, transition synchronous pulley 119 and driving synchronous pulley 120 usefulness screws are installed on the intermediate zone wheel seat 118, transition synchronous pulley 122 be installed on the transition gear seat 121 after transition gear 123 usefulness screws are connected, synchronous pulley 125 just reverses on the adjustable plate backing pin 124 with being installed in after adjustable plate fulcrum gear 126 usefulness screws are connected, synchronous pulley 127 is installed on the regulating wheel mandrel 128, carry-over pinch rolls gear 129 is installed on the spindle nose of carry-over pinch rolls 130, chill roll synchronous pulley 131 is installed on the spindle nose of chill roll 132, a synchronous belt is through belt pulley 110, regulating wheel 111, on the synchronous pulley 113, a synchronous belt is through synchronous pulley 115, regulating wheel 116, on the transition synchronous pulley 119, a synchronous belt is through and drives on synchronous pulley 120 and the transition synchronous pulley 122, transition gear 123, adjustable plate fulcrum gear 126 and 129 engagements of carry-over pinch rolls gear also have a synchronous belt to be through synchronous pulley 125, synchronous pulley 127, on the chill roll synchronous pulley 131.

Motor is installed on the motor erection support 107, motor gear 108 and gear 109 engagements, axle 84 is by installing gear 83, transition gear 85, gear 87 on the spindle nose of G framed side wallboard inboard, when motor operations, engaged transmission by gear gear 83, transition gear 85, gear 87, the transmission of four synchronous belts and transition gear 123, adjustable plate fulcrum gear 126 and carry-over pinch rolls gear 129 engaged transmission, thereby the run-in synchronism of realization anilox roll 89, carry-over pinch rolls 130, chill roll 132.

When printing monovolume roll web, gluing pallet and backing roll, chill roll and anilox roll are in disengaged condition, and do not need the roll web gluing and overlay this moment.

When the monovolume roll web of printing when needing overlay film, gluing pallet and backing roll are in disengaged condition, and chill roll and anilox roll are in fit-state, and roll web that has printed and the PVC film that pulls out in the film covering device are through overlaying with regard to applying together.

When two volume roll webs printed simultaneously, gluing pallet and backing roll, chill roll and anilox roll all were in fit-state, and this moment, the following paper and the last paper of surface sizing fit together through just overlaying.

When two volume roll webs print simultaneously and need overlay film, gluing pallet and backing roll, chill roll and anilox roll all are in fit-state, this moment, the following paper, the PVC film that pulls out through the last paper of trimming correction and servo motor control tension adjustment, in the film covering device of surface sizing were fitted together through just overlaying, through after process the adhesive label that just can be made into a kind of multilayer.

Claims (6)

1. laminating apparatus that is used for adhensive rotary printer, it is characterized in that, by manual adjustments tensioner (1), sizer (2), cooling carry-over pinch rolls devices (3), AC servo motor draw-gear (4), deviation correcting device (5), pressing mechanism (6), film covering device (7), G framed side wallboard (8), transmission system (9) is formed, manual adjustments tensioner (1) is positioned at the bottom of G framed side wallboard (8), sizer (2) is positioned at the top of manual adjustments tensioner (1), cooling carry-over pinch rolls devices (3) are positioned at the right side of sizer (2), AC servo motor draw-gear (4) places the upper left quarter of sizer (2), deviation correcting device (5) places the upper right quarter of AC servo motor draw-gear (4), pressing mechanism (6) is positioned at the right side between sizer (2) and the AC servo motor draw-gear (4), film covering device (7) places the upper right quarter of pressing mechanism (6), and transmission system (9) is positioned at the outside of G framed side wallboard (8).

2. the laminating apparatus that is used for adhensive rotary printer according to claim 1, it is characterized in that, described manual adjustments tensioner (1) is by seat (10), guide roller mandrel saddle (11), guide roller support plate (12,23), guide roller (13), guide roller mandrel (14), support plate (17), worm gear guard shield (18), worm gear (19), worm-gear toothing adjustment seat (20), worm screw (21), worm-wheel shaft (22), axle (25), guide roller (26), dish (27), pillar (28), handwheel (29) is formed, pillar (28) is fixed in support plate (17) by seat (10) outside of G framed side wallboard (8), dish (27) is fixed on the pillar (28), guide roller (26) two ends are located on the axle (25) by bearing, and it is fixing with baffle ring (24), axle (25) one ends are fixed on G framed side wallboard (8) by guide roller mandrel saddle (11) and locate, the other end passes support plate (17), and be fixed by support plate (17) inboard with baffle ring (16), guide roller support plate 12,23 upsides are through respectively on the axle 25, place guide roller 26 both sides and fastening with screw, downside is through on the guide roller mandrel (14), guide roller (13) is located on the guide roller mandrel (14) by bearing, and it is fastening by baffle ring (15) in both sides, axle (25) passes on the spindle nose in support plate (17) outside with the fixing worm gear (19) of flat key, with worm screw (21) engagement of being located on the worm-gear toothing adjustment seat (20), worm-wheel shaft (22) one ends are fixed on the worm screw (21) by pin, the other end is provided with handwheel (29), its outer worm gear guard shield (18) that is provided with.

3. the laminating apparatus that is used for adhensive rotary printer according to claim 1, it is characterized in that, described sizer (2) is by cover (30), G side installing plate (31), take over (32), nut (33), anterior G side support plate (34), adjust spiro rod support (35), take over (36), pin (37), cylinder joint (38), cylinder support arm (39), bearing block (40), cylinder mount pad (41), cylinder props up piece (42), guide finger (43), handwheel (44), pressure adjustment screw (45), fulcrum (46), adjust screw rod (47), handwheel (48), axle (49), anilox roll O framed side wallboard (50), support plate (51), baffle ring (52), axle bed (53), handwheel (54), handwheel (55), bearing gland (56), gluing member (57), flange (58), adjusting screw(rod) (59), adjust spiro rod support (60), anterior O side support plate (61), support plate (62), cylinder seat (63), adjust screw rod (64), adjust spiro rod support (65), adjusting spiro rod support (66) forms, support plate (51) is screwed in anilox roll O framed side wallboard (50) upper left side, axle (49) passes bearing block (40) on support plate (51) and the G framed side wallboard respectively by bearing, pass on the spindle nose of support plate (51) and be provided with flange (58) successively, baffle ring (52), axle bed (53), handwheel (54), handwheel (55), bearing gland (56), cylinder support arm (39) one ends are fixed on the axle head of the axle (49) that passes G framed side wallboard (8) by screw, opposite side at cylinder support arm (39) is provided with adapter (36) successively, nut (33), take over (32) and cover (30), axle is provided with the wheel (48) of shaking the hand in the middle of (49), the adjustment screw rod (47) fastening with the wheel (48) of shaking the hand passes axle (49) and fulcrum (46), and use fixed by nut, be equipped with the pressure-adjusting screw (45) that is fixed on the axle (49) in wheel (48) both sides of shaking the hand, withstand on fulcrum (46) end face, two pressure-adjusting screws (45) outside of dress handle (44) respectively has a guide finger (43) that is fixed on the axle (49) to pass fulcrum (46), fulcrum (46) two axial ends is installed anterior G side support plate (34) and anterior O side support plate (61) respectively, two support plate downsides are installed the G side respectively support plate (31) are installed, the O side is installed support plate (62), and it is gluing member (57) is fixing with screw, adjusting spiro rod support (35) is screwed forwardly on the G side support plate (34), adjust screw rod (64) by adjusting spiro rod support (65), adjusting spiro rod support (66) withstands on the adjustment spiro rod support (35), adjust screw rod (59) and withstand on the position of regulating anterior O side support plate (61) on another support plate by the adjustment spiro rod support (60) that is installed on the anterior O side support plate (61), cylinder is installed on the cylinder mount pad (41), cylinder props up piece (42) and is screwed on cylinder mount pad (41), and cylinder jointing (38) is connected with cylinder seat (63) on being fixed on anterior G side support plate (34) with pin (37).

4. the laminating apparatus that is used for adhensive rotary printer according to claim 1, it is characterized in that, described carry-over pinch rolls device (3) is by anilox roll O framed side wallboard (50), backing roll G framed side wallboard (67), spacer ring (68), divider (69), guide roller (70), axle (71), baffle ring (72), backing roll (73), take over (74), axle head gland (75), outer side pressure trunk bearing gland (76), interior side pressure trunk bearing gland (77), pillar (78) pillar compositions such as (79), at least one pillar (78), pillar (79) is located between anilox roll O framed side wallboard (50) and the G framed side wallboard (8), backing roll (73) one ends pass through bearing, axle head door (75), outer side pressure trunk bearing gland (76), interior side pressure trunk bearing gland (77) places in the anilox roll O framed side wallboard (50), the other end places in the backing roll G framed side wallboard (67) by spacer ring (68), backing roll G framed side wallboard (67) is fixed on G framed side wallboard (8) inboard by screw, the built-in adapter (74) that cooling back installation is housed of backing roll (73), link to each other with outside input and output cooling tube by the divider (69) that is fixed on the G framed side wallboard outside, backing roll (73) lower right side is provided with by guide roller (70), axle (71), the auxiliary traction roller arrangement that baffle ring (72) is formed is located between anilox roll O framed side wallboard 50 and the G framed side wallboard (8) by the bearing block integral body at two ends.

5. the laminating apparatus that is used for adhensive rotary printer according to claim 1, it is characterized in that, described laminating apparatus is by anilox roll support plate (80), and take off gear (81), gear (82), gear (83), block (84), transition gear (85), transition gear seat (86), gear (87), take over (88), anilox roll (89), chill roll (90), bearing gland (91), anilox roll support plate (92), bearing gland (93), gear (94), spring (95), pin (96), spindle nose (97), handle pole socket (98), handwheel seat (99), handlebar (100), and take off gear (101), depoling axle ((102), pillar (103), guiding mandrel roller (104), guide roller (105), baffle ring (106) is formed, at least one pillar (103) links to each other anilox roll support plate (80) with anilox roll support plate (92), and integral body placed G framed side wallboard (8) inboard, about guide roller (105) is located at by bearing on the guiding mandrel roller (104) of two anilox roll support plates, and it is fastening by both sides baffle ring (106), anilox roll (89) by bearing fixing on the anilox roll support plate of the left and right sides, and in the O side by bearing gland (93), bearing gland (91) is fixing, inboard in the G side by key fixed gear (87), with transition gear (85) and gear (83) engagement, gear (83) is located on the axle (84) by flat key, transition gear (85) is located on the transition gear seat (86), be provided with adapter (88) in the anilox roll (89), link to each other with outside input and output cooling tube, directly over the anilox roll (89) chill roll (90), two axial ends is located at gear (82) by bearing, on the gear (94), depoling axle (102) one ends places in the anilox roll support plate (80), the other end links to each other with the spindle nose that passes anilox roll support plate (92) (97) that is connected by pin, be provided with handwheel seat (99) on the spindle nose (97) successively, handle pole socket (98), pin (96), spring (95) and handlebar (100), and take off gear (81) and be fixed on the depoling axle by anilox roll support plate (80) inboard, and take off gear (101) and be fixed on anilox roll support plate (92) inboard by screw by key.

6. the laminating apparatus that is used for adhensive rotary printer according to claim 1, it is characterized in that, described transmission system is by gear (83), axle (84), transition gear (85), cross pinion stand (86), gear (87), anilox roll (89), motor erection support (107), motor gear (108), gear (109), belt pulley (110), regulating wheel (111), regulating wheel mandrel (112), synchronous pulley (113), transition pulley mandrel (114), synchronous pulley (115), regulating wheel (116), synchronous pulley seat (117), intermediate zone wheel seat (118), transition synchronous pulley (119), drive synchronous pulley (120), transition gear seat (121), transition synchronous pulley (122), transition gear (123), just reversing adjustable plate backing pin (124), synchronous pulley (125), adjustable plate fulcrum gear (126), synchronous pulley (127), regulating wheel mandrel (128), carry-over pinch rolls gear (129), carry-over pinch rolls (130), chill roll synchronous pulley (131), chill roll (132) is formed, be provided with gear (83) in axle (84) inboard of passing G framed side wallboard (8), the outside is provided with belt pulley (110), regulating wheel (111) is located on the regulating wheel mandrel (112), synchronous pulley (113) and synchronous pulley (115) are located on the transition pulley mandrel (114), regulating wheel (116) is located on the synchronous pulley seat (117), transition synchronous pulley (119) and driving synchronous pulley (120) are located on the intermediate zone wheel seat (118) by screw, transition synchronous pulley (122) and transition gear (123) are located on the transition gear seat (121) by screw, synchronous pulley (125) and adjustable plate fulcrum gear (126) are located at by screw and are just reversed on the adjustable plate backing pin (124), synchronous pulley (127) is located on the regulating wheel mandrel (128), carry-over pinch rolls gear (129) is located on the spindle nose of carry-over pinch rolls (130), chill roll synchronous pulley (131) is located on the spindle nose of chill roll (132), belt pulley (110), regulating wheel (111) is connected by synchronous belt with synchronous pulley (113), synchronous belt (115), regulating wheel (116) is connected by synchronous belt with transition synchronous pulley (119), driving synchronous pulley (120) is connected by synchronous belt with transition synchronous pulley (122), transition gear (123), adjustable plate fulcrum gear (126) and carry-over pinch rolls gear (129) engagement, synchronous pulley (125), synchronous pulley (127) is connected by synchronous belt with chill roll synchronous pulley (131), motor is located on the motor erection support (107), motor gear (108) is provided with gear (83) with gear (109) engagement, axle (84) by the inboard spindle nose of G framed side wallboard (8), transition gear (85), gear (87).

Images