CN108995368B

CN108995368B - Five-color metal plate printing machine

Info

Publication number: CN108995368B
Application number: CN201811094212.5A
Authority: CN
Inventors: 沈惠峰; 施胜新; 陈忠兵; 费兵; 许浩然
Original assignee: Jiangsu Huayu Printing & Coating Equipment Co ltd
Current assignee: Jiangsu Huayu Printing & Coating Equipment Co ltd
Priority date: 2018-09-19
Filing date: 2018-09-19
Publication date: 2023-12-22
Anticipated expiration: 2038-09-19
Also published as: CN108995368A

Abstract

The invention provides a five-color metal plate printing machine which comprises a feeding track, a feeding machine, five iron printing machines, four first UV curing machines, a primary product detection table, a second UV curing machine, a wind cooling device, a detection table, a stacking machine and a material receiving roller table, wherein the feeding track, the iron printing machines, the primary product detection table, the second UV curing machines, the wind cooling device, the detection table, the stacking machine and the material receiving roller table are sequentially arranged from right to left, and a first UV curing machine is arranged between two adjacent iron printing machines. The invention has the advantages of reasonable structure, convenient operation, capability of continuously printing five color groups, effective improvement of working efficiency, better guarantee of printing quality, convenience for finding out unqualified printed metal plates, convenience for cleaning and reusing the unqualified printed metal plates, and effective avoidance of waste of the metal plates.

Description

Five-color metal plate printing machine

Technical Field

The invention relates to the related mechanical field of printing metal plates, in particular to a five-color metal plate printing machine.

Background

At present, in the aspect of metal plate printing, a single-color group, a double-color machine, a three-color machine and a four-color machine are generally adopted for printing, if five-color printing is needed, the printing and drying are needed to be carried out once, then the printing and drying are carried to a printing feeding position, and the printing of five-color printing products can be finished only by carrying out iron printing again, so that the printing machine is labor-consuming and time-consuming, has low efficiency and wastes energy needing to be dried after the second printing.

Disclosure of Invention

The present invention is directed to a five-color metal plate printer that solves one or more of the above-mentioned problems of the prior art.

The invention relates to a five-color metal plate printing machine which comprises a feeding track, a feeding machine, five iron printing machines, four first UV curing machines, a primary product detection table, a second UV curing machine, a wind cooling device, a detection table, a stacker and a material receiving roller table, wherein the feeding track, the iron printing machines, the primary product detection table, the second UV curing machines, the wind cooling device, the detection table, the stacker and the material receiving roller table are sequentially arranged from right to left, and a first UV curing machine is arranged between two adjacent iron printing machines.

And the first UV curing machine and the second UV curing machine adopt LED bulbs as light-emitting units for UV curing.

Further, one LED bulb is arranged in the first UV curing machine, and at least three LED bulbs are arranged in the second UV curing machine.

The primary product detection table comprises a base, a motor, a frame, a conveying mechanism, a sample jumping mechanism, a stacking mechanism, a sample returning mechanism and a control box are arranged on the base, the sample jumping mechanism and the conveying mechanism are arranged on the frame, the stacking mechanism and the sample returning mechanism are arranged above the conveying mechanism, the motor drives the conveying mechanism and the sample returning mechanism through a conveying belt, a switching button is arranged on the control box, and the control box is connected with the sample jumping mechanism and the sample returning mechanism.

Further, the control box adopts a PLC control box.

Further, conveying mechanism includes a driving shaft and two driven shafts, both ends of driving shaft and driven shaft all pass through bearing and bearing frame and frame coupling, be equipped with the second driving roller on the driving shaft, be equipped with first driving roller on the output shaft of motor, first driving roller passes through the conveyer belt and is connected with the second driving roller, the second driving roller passes through the conveyer belt and is connected with the mechanism that returns, evenly be equipped with a plurality of rollers on the driving shaft, include the first roller and the second roller that a plurality of intervals set up in the roller, two driven shafts set up respectively in the left and right sides of driving shaft, all evenly be equipped with a plurality of rollers on two driven shafts, the quantity of the roller that sets up on the driven shaft of left side equals with the quantity of first roller, the roller that sets up on the driven shaft of right side corresponds with the quantity of second roller, the roller that sets up on the driven shaft of right side corresponds with the position of second roller, set up between roller and the driven shaft of left side and the first roller, set up between roller and the roller of right side, set up the roller and the roller of right side driven shaft and the mechanism that sets up width that passes through the conveyer belt and the corresponding mechanism that jumps between the driven shaft and the driven shaft, set up between the driven shaft and the mechanism that sets up.

Further, the sample jumping mechanism comprises two air cylinder control systems connected with the control box and a connecting shaft arranged between the two air cylinder control systems, the two air cylinder control systems are fixed on the outer wall of the frame and symmetrically distributed with respect to the frame, each air cylinder control system comprises a bidirectional air pump connected with the control box, an air cylinder connected with the bidirectional air pump, a telescopic rod arranged on the air cylinder and a rotary connecting block, the end part of the telescopic rod is movably connected with the rotary connecting block through a bolt, the connecting shaft is arranged between the two rotary connecting blocks, the two ends of the connecting shaft penetrate through the frame and are connected with the frame through a bearing and a bearing seat, a plurality of jumping rod assemblies are uniformly arranged on the connecting shaft between the frames, the connecting shaft is arranged below the conveying belt and distributed with the second rollers in a staggered mode, the number of the jumping rod assemblies corresponds to that of the second rollers, and the positions of the jumping rod assemblies correspond to the positions of the stacking mechanism.

Furthermore, the jump rod assembly consists of a jump rod and a connecting seat, the jump rod is arranged at the top of the connecting seat, and the connecting seat is sleeved on the connecting shaft.

Still further, the stacking mechanism includes a mainboard of slope placement, and the top and the bottom of mainboard are equipped with gag lever post and stopper respectively, and the bottom and the frame coupling of mainboard, the first backup pad of bolted connection are passed through on the upper portion of mainboard, and the bottom and the frame coupling of first backup pad, the setting of first backup pad can effectually strengthen the stability of stacking mechanism. The position of the main board corresponds to the position of the replacing mechanism.

Further, put back mechanism includes casing, a driven shaft, a second driving shaft, second conveyer belt and electromagnetic clutch mechanism, the casing passes through the bolt and is connected with second backup pad, the third backup pad, the bottom of second backup pad and the bottom of third backup pad all are connected with the frame, the both ends of driven shaft and the both ends of second driving shaft all are connected with the casing through bearing and bearing frame, be connected through the second conveyer belt between the remaining second driving shaft of driven shaft in the casing, the casing is passed to the one end of second driving shaft is connected with electromagnetic clutch mechanism, be equipped with the auxiliary roller on the electromagnetic clutch mechanism, the auxiliary roller passes through the first driving roller of conveyer belt and is connected.

Still further, electromagnetic clutch mechanism includes stator and rotor, and the stator is connected with the second driving shaft, is equipped with the auxiliary roller on the output shaft of rotor.

The detection platform comprises a second base, a motor, a frame, a conveying mechanism, a sample jumping mechanism, a stacking mechanism and a second control box are arranged on the second base, a second switching button is arranged on the second control box, the sample jumping mechanism and the conveying mechanism are arranged on the frame, the stacking mechanism is arranged above the conveying mechanism, the motor drives the conveying mechanism through a conveying belt, and the second control box is connected with the sample jumping mechanism. The second control box adopts a PLC control box, and the working state of the sample jumping mechanism is switched through a second switching button.

The five-color metal plate printing machine has the advantages that: the printing device has the advantages that the structure is reasonable, the operation is convenient, the printing of five color groups can be continuously carried out, the working efficiency is effectively improved, the working process is more reliable, meanwhile, the printing quality can be better ensured through the primary product detection table and the detection table, when the unqualified metal plate is detected on the primary product detection table, if the unqualified metal plate is found, the pigment on the metal plate is not further dried, the pigment on the metal plate can be better removed, so that the unqualified metal plate can be used again through cleaning, the waste of the metal plate is effectively avoided, the energy consumption for producing the drying effect is reduced, and the utilization rate of resources is improved.

Drawings

FIG. 1 is a schematic diagram of a five-color metal plate printer according to an embodiment of the present invention;

FIG. 2 is a schematic structural diagram of a preliminary product inspection station according to an embodiment of the present invention;

FIG. 3 is a schematic diagram of a jumper assembly according to an embodiment of the present invention;

fig. 4 is a top view of a table according to an embodiment of the present invention.

Detailed Description

As shown in fig. 1, the invention provides a five-color metal plate printing machine, which comprises a feeding track 1, a feeding machine 2, five metal printing machines 3, four first UV curing machines 5, a primary product detection table 6, a second UV curing machine 8, a wind cooling device 9, a detection table 10, a stacking machine 11 and a material receiving roller table 12, wherein the feeding track 1, the metal printing machines 3, the primary product detection table 6, the second UV curing machines 8, the wind cooling device 9, the detection table 10, the stacking machine 11 and the material receiving roller table 12 are sequentially arranged from right to left, a first UV curing machine 5 is arranged between two adjacent metal printing machines 3, and the first UV curing machines 5 and the second UV curing machines 8 adopt LED bulbs as light emitting units for UV curing, wherein the first UV curing machines 5 are provided with one LED bulb, and the second UV curing machines 8 are provided with at least three LED bulbs.

The working principle of the five-color metal plate printer is as follows: the metal plate to be printed is put on the feeding track 1, the feeding track 1 is transmitted to the feeder 2, then the feeder 2 transmits the metal plate to the right-most iron printing machine 3 for printing and then sequentially transmits the metal plate to the next four iron printing machines 3 from right to left, the metal plate firstly enters the first UV curing machine 5 for primary curing by utilizing the LED bulbs between the previous iron printing machine 3 and the next iron printing machine 3, the pigment is prevented from being in a flowing state when entering the next iron printing machine 3, the printing effect is further ensured, meanwhile, the pigment is effectively prevented from being directly cured completely by only arranging one LED bulb in the first UV curing machine 5 for primary UV curing, the energy consumption for producing the drying effect is reduced, when the metal plate is conveyed from the leftmost metal printing machine 3 to the primary product detection table 6, the printing quality detection can be carried out, if the printing on the metal plate is detected to be unqualified, the metal plate can be cleaned and then printed again, other metal plates can be conveyed from the primary product detection table 6 to the second UV curing machine 8 to be primarily cured by utilizing the LED bulbs, then the metal plates enter the air cooling device 9 to be cooled and then enter the detection table 10, the metal plates can be selected on the detection table 10 to carry out further spot check detection on curing effect and printing effect, the printing effect is further taken off, the metal plates which are not selected can be directly conveyed from the detection table 10 to the stacker 11 to carry out stacking arrangement, and finally the metal plates which are well stacked are conveyed to the material receiving roller table 12 to be output.

As shown in fig. 2 to 4, the primary product detecting table 6 includes a base 601, a motor 602, a frame 608, a conveying mechanism, a sample jumping mechanism, a stacking mechanism, a replacing mechanism and a control box 623 are disposed on the base 601, the sample jumping mechanism and the conveying mechanism are disposed on the frame 608, the stacking mechanism and the replacing mechanism are disposed above the conveying mechanism, the motor 602 drives the conveying mechanism and the replacing mechanism through a conveying belt 603, a switching button 624 is disposed on the control box 623, and the control box 623 is connected with the sample jumping mechanism and the replacing mechanism. The conveying mechanism comprises a driving shaft 626 and two driven shafts 606, both ends of the driving shaft 626 and the driven shafts 606 are connected with a frame 608 through bearings and bearing seats, a second driving roller 604 is arranged on the driving shaft 626, a first driving roller 625 is arranged on an output shaft of a motor 602, the first driving roller 625 is connected with the second driving roller 604 through a conveying belt 603, a plurality of rollers 627 are uniformly arranged on the driving shaft 626, each roller 627 comprises a plurality of first rollers and second rollers which are arranged at intervals, the two driven shafts 606 are respectively arranged on the left side and the right side of the driving shaft 626, a plurality of rollers 627 are uniformly arranged on the two driven shafts 606, the number of rollers 627 arranged on the driven shafts 606 on the left side is equal to that of the first rollers, the positions of the rollers 627 arranged on the driven shafts 606 on the left side correspond to that of the first rollers, the number of the rollers 627 arranged on the driven shafts 606 on the right side is equal to that of the second rollers, the position of the roller 627 arranged on the driven shaft 606 on the right corresponds to the position of the second roller, the roller 627 arranged on the driven shaft 606 on the left is connected with the first roller, the roller 627 arranged on the driven shaft 606 on the right is connected with the second roller through the conveyer belt 607, the width of the conveyer belt 607 corresponds to the width of the roller 627, the number of the conveyer belts 607 is equal to the number of the rollers 627 on the driving shaft 626, the sampling mechanism and the stacking mechanism are arranged between the driven shaft 606 on the right and the driving shaft 626, the sampling mechanism is arranged at the right lower part of the stacking mechanism, the sampling mechanism comprises two cylinder control systems connected with the control box 623 and a connecting shaft 613 arranged between the two cylinder control systems, the two cylinder control systems are fixed on the outer wall of the frame 608, the two cylinder control systems are symmetrically distributed about the frame 608, each cylinder control system comprises a bidirectional air pump 609 connected with the control box 623, the two-way air pump comprises an air cylinder 610 connected with a two-way air pump 609, a telescopic rod 611 and a rotary connecting block 612, wherein the telescopic rod 611 and the rotary connecting block 612 are arranged on the air cylinder 610, the end part of the telescopic rod 611 is movably connected with the rotary connecting block 612 through bolts, a connecting shaft 613 is arranged between the two rotary connecting blocks 612, both ends of the connecting shaft 613 penetrate through a frame 608 and are connected with the frame 608 through bearings and bearing seats, a plurality of jumping rod assemblies are uniformly arranged on the connecting shaft 613 arranged between the frames, the connecting shaft 613 is arranged below a conveying belt 607, the jumping rod assemblies are distributed with second rollers in a staggered mode, the number of the jumping rod assemblies corresponds to that of the second rollers, the positions of the jumping rod assemblies correspond to that of a stacking mechanism, the jumping rod assemblies consist of a jumping rod 614 and a connecting seat 615, the jumping rod 614 is arranged at the top of the connecting seat 615, and the connecting seat 615 is sleeved on the connecting shaft 613, wherein the arrangement of two air cylinder control systems can ensure the stability of the connecting shaft 613 during rotation, so that the jumping mechanism is preferable and reliable; the stacking mechanism comprises a main board 616 which is obliquely arranged, a limit rod 617 and a limit block 628 are respectively arranged at the top and the bottom of the main board 616, the bottom of the main board 616 is connected with the frame 608, the upper part of the main board 616 is connected with a first supporting board 618 through bolts, the bottom of the first supporting board 618 is connected with the frame 608, and the stability of the stacking mechanism can be effectively enhanced through the arrangement of the first supporting board 618. The position of the main board 616 corresponds to the position of the replacement mechanism. The put back mechanism is arranged between the driving shaft 626 and the driven shaft 606 arranged on the left side, the put back mechanism comprises a shell 621, a driven shaft 606, a second driving shaft, a second conveying belt 622 and an electromagnetic clutch mechanism 605, the shell 621 is connected with a second supporting plate 620 and a third supporting plate 619 through bolts, the bottoms of the second supporting plate 620 and the third supporting plate 619 are both connected with a frame 608, two ends of the driven shaft 606 and two ends of the second driving shaft are both connected with the shell 621 through bearings and bearing blocks, the remaining second driving shafts of the driven shaft 606 in the shell 621 are connected through the second conveying belt 622, one end of the second driving shaft passes through the shell 621 to be connected with the electromagnetic clutch mechanism 605, the electromagnetic clutch mechanism 605 comprises a stator and a rotor, the stator is connected with the second driving shaft, an auxiliary roller is arranged on an output shaft of the rotor, and the auxiliary roller is connected with a first driving roller 625 of the conveying belt 603.

The control box 623 is a PLC control box, which implements a simple switching control function, and its control program is a prior art and will not be described in detail. Wherein the electromagnetic clutch mechanism 605 is not described in detail again in the prior art.

The working principle of the primary product detection table 6 is as follows: without clicking the switching button 624, the motor 602 drives the driving shaft 626 to rotate through the first driving roller 625 by the conveyor 603, the first driving roller 625 drives the rotor on the electromagnetic clutch mechanism 605 to idle through the auxiliary roller, the driving shaft 626 and the driven shaft 606 jointly act to drive the conveyor 607 to convey the metal plate, when detection is needed, the switching button 624 is clicked, the bidirectional air pump 609 drives the telescopic rod 611 to retract backwards through the air cylinder 610, then the telescopic rod 611 drives the connecting shaft 613 to rotate through the rotary connecting block 612, the purpose of driving the jumping rod assembly on the connecting shaft 613 to rotate upwards is achieved, when the top of the jumping rod 614 is higher than the main plate 616, the bidirectional air pump 609 stops running, the stator in the electromagnetic clutch mechanism 605 is combined with the rotor, the second driving shaft connected with the stator starts to rotate, the second driving shaft 622 is driven by the second driving shaft and the driven shaft 606, at the moment, the conveyor 607 continues to convey the metal plate upwards under the guidance of the jumping rod 614, then drops onto the main plate 616, then the inspection is carried out, if printing is qualified, the metal plate is placed onto the second conveyor 622, and the conveyor belt is driven by the second conveyor belt 622 to drop onto the left side of the driving shaft 607; only directly picking out if the inspection is failed. After detection, the switch button 624 is not required to be clicked again, the stator and the rotor in the electromagnetic clutch mechanism 605 are separated, the rotor enters idle running, the bidirectional air pump 609 drives the telescopic rod 611 to extend forwards through the air cylinder 610, then the telescopic rod 611 drives the connecting shaft 613 to rotate through the rotary connecting block 612, and therefore the purpose of driving the jump rod assembly on the connecting shaft 613 to rotate downwards for resetting is achieved, and after the jump rod assembly rotates downwards for resetting, the bidirectional air pump 609 stops working. In this way, it is possible to perform the inspection of the single sheet Zhang Chouqu or the extraction inspection of a plurality of sheets in succession. The whole process is convenient and quick.

As a further preferred embodiment, the detection table 10 includes a second base, on which a motor 602, a frame 608, a conveying mechanism, a sample jumping mechanism, a stacking mechanism and a second control box are disposed, on which a second switching button is disposed, the sample jumping mechanism and the conveying mechanism are disposed on the frame 608, the stacking mechanism is disposed above the conveying mechanism, and the motor 602 drives the conveying mechanism via a conveyor 603, and the second control box is connected with the sample jumping mechanism. The second control box adopts a PLC control box, and the working state of the sample jumping mechanism is switched through a second switching button. The working processes of the conveying mechanism and the sample jumping mechanism are the same as those of the conveying mechanism and the sample jumping mechanism in the primary product detection table 6.

The foregoing is merely a preferred embodiment of the present invention, and it should be noted that it will be apparent to those skilled in the art that several similar modifications and improvements can be made without departing from the inventive concept, and these should also be considered as being within the scope of the present invention.

Claims

1. The five-color metal plate printing machine is characterized by comprising a feeding track (1), a feeding machine (2), five iron printing machines (3), four first UV curing machines (5), a primary product detection table (6), a second UV curing machine (8), a typhoon cooling device (9), a detection table (10), a stacking machine (11) and a receiving roller table (12), wherein the feeding track (1), the feeding machine (2), the iron printing machines (3), the primary product detection table (6), the second UV curing machines (8), the air cooling device (9), the detection table (10), the stacking machine (11) and the receiving roller table (12) are sequentially arranged from right to left, and a first UV curing machine (5) is arranged between two adjacent iron printing machines (3);

the primary product detection table (6) comprises a base (601), a motor (602), a frame (608), a conveying mechanism, a sample jumping mechanism, a stacking mechanism, a replacing mechanism and a control box (623) are arranged on the base (601), the sample jumping mechanism and the conveying mechanism are arranged on the frame (608), the stacking mechanism and the replacing mechanism are arranged above the conveying mechanism, the motor (602) drives the conveying mechanism and the replacing mechanism through a conveying belt (603), a switching button (624) is arranged on the control box (623), and the control box (623) is connected with the sample jumping mechanism and the replacing mechanism;

the conveying mechanism comprises a driving shaft (626) and two driven shafts (606), two ends of the driving shaft (626) and the driven shafts (606) are connected with a frame (608) through bearings and bearing seats, a second driving roller (604) is arranged on the driving shaft (626), a first driving roller (625) is arranged on an output shaft of a motor (602), the first driving roller (625) is connected with the second driving roller (604) through a conveying belt (603), the second driving roller (604) is connected with a return mechanism through a conveying belt (603), a plurality of rollers (627) are uniformly arranged on the driving shaft (626), the rollers (627) comprise a plurality of first rollers and second rollers arranged at intervals, the two driven shafts (606) are respectively arranged on the left side and the right side of the driving shaft (626), a plurality of rollers (627) are uniformly arranged on the two driven shafts (606), the number of rollers (627) arranged on the left side is equal to that of the first rollers, the positions of the rollers (627) arranged on the driven shaft (606) on the left side are corresponding to that of the first rollers, the rollers (627) are arranged on the right side of the driven shaft (606) and the driven shaft (606) which is arranged between the first rollers (627) and the number of rollers (627) which are equal to that of the rollers (627) arranged on the right side of the driven shaft (606) which is arranged on the right side of the driving shaft (606) which is equal to that the first rollers arranged on the right side of the corresponding rollers, the rollers (627) and the second rollers on the driven shaft (606) on the right side are connected through conveying belts (607), the width of the conveying belts (607) corresponds to the width of the rollers (627), the number of the conveying belts (607) is equal to the number of the rollers (627) on the driving shaft (626), a sample jumping mechanism and a stacking mechanism are arranged between the driven shaft (606) on the right side and the driving shaft (626), the sample jumping mechanism is arranged at the right lower part of the stacking mechanism, and a replacement mechanism is arranged between the driving shaft (626) and the driven shaft (606) on the left side;

the jump mechanism comprises two cylinder control systems connected with a control box (623) and a connecting shaft (613) arranged between the two cylinder control systems, wherein the two cylinder control systems are both fixed on the outer wall of a frame (608), the two cylinder control systems are symmetrically distributed about the frame (608), each cylinder control system comprises a bidirectional air pump (609) connected with the control box (623), a cylinder (610) connected with the bidirectional air pump (609), a telescopic rod (611) arranged on the cylinder (610) and a rotary connecting block (612), the end part of the telescopic rod (611) is movably connected with the rotary connecting block (612) through bolts, the connecting shaft (613) is arranged between the two rotary connecting blocks (612), two ends of the connecting shaft (613) penetrate through the frame (608) and are connected with the frame (608) through bearings and bearing seats, a plurality of jump rod assemblies are uniformly arranged on the connecting shaft (613) arranged between the frames, the connecting shaft (613) is arranged below a conveying belt (607), the jump rod assemblies are staggered with a second roller assembly, and the number of the jump rod assemblies corresponds to the number of jump rod assemblies of the jump rod assemblies;

the jump rod assembly consists of a jump rod (614) and a connecting seat (615), the jump rod (614) is arranged at the top of the connecting seat (615), and the connecting seat (615) is sleeved on the connecting shaft (613);

the stacking mechanism comprises a main board (616) which is obliquely arranged, wherein a limit rod (617) and a limit block (628) are respectively arranged at the top and the bottom of the main board (616), the bottom of the main board (616) is connected with the frame (608), the upper part of the main board (616) is connected with a first supporting board (618) through a bolt, the bottom of the first supporting board (618) is connected with the frame (608), and the position of the main board (616) corresponds to the position of the replacing mechanism;

the replacing mechanism comprises a shell (621), a driven shaft (606), a second driving shaft, a second conveying belt (622) and an electromagnetic clutch mechanism (605), wherein the shell (621) is connected with a second supporting plate (620) and a third supporting plate (619) through bolts, the bottom of the second supporting plate (620) and the bottom of the third supporting plate (619) are both connected with a frame (608), two ends of the driven shaft (606) and two ends of the second driving shaft are both connected with the shell (621) through bearings and bearing seats, the driven shaft (606) in the shell (621) is connected with the second driving shaft through a second conveying belt (622), one end of the second driving shaft penetrates through the shell (621) and is connected with the electromagnetic clutch mechanism (605), the electromagnetic clutch mechanism (605) comprises a stator and a rotor, the stator is connected with the second driving shaft, an auxiliary roller is arranged on an output shaft of the rotor, and the auxiliary roller is connected with a first driving roller (625) through a conveying belt (603);

when detection is needed, the switching button (624) is clicked, the bidirectional air pump (609) drives the telescopic rod (611) to retract backwards through the air cylinder (610), then the telescopic rod (611) drives the connecting shaft (613) to rotate through the rotary connecting block (612), so that the purpose of driving the jump rod assembly on the connecting shaft (613) to rotate upwards is achieved, when the top of the jump rod (614) is higher than the main board (616), the bidirectional air pump (609) stops running, a stator in the electromagnetic clutch mechanism (605) is combined with a rotor, a second driving shaft connected with the stator starts to rotate, the second driving shaft and the driven shaft (606) drive the second conveying belt (622) to anticlockwise drive, at the moment, the conveying belt (607) continuously conveys a metal plate, the metal plate is conveyed upwards under the guidance of the jump rod (614) and then falls onto the main board (616), then the detection is carried out, if printing is qualified, the metal plate is placed onto the second conveying belt (622), and the conveying belt (607) falling onto the left side of the driving shaft is driven by the second conveying belt (622); and if the inspection is not qualified, directly picking out.

2. The five-color metal plate printing machine according to claim 1, wherein the first UV curing machine (5) and the second UV curing machine (8) are UV cured by using LED bulbs as light emitting units.