CN201960816U - Sixteen-station curved surface printing machine - Google Patents

Abstract

The utility model relates to printing machinery, particularly to a sixteen-station curved surface printing machine which comprises a printing main machine comprising a transfer print drum wheel and various color printing roller ink units, a printing undertaking device comprising a stepping indexing turntable and an intermittent driving device driving the stepping indexing turntable to rotate, a base for bearing the printing main machine and the printing undertaking device, a feed slideway, a finished product output device, as well as a feed and double sheet detection device, an emptiness detection device, a corona device, a printing device, a solidification device, a substandard product ejection device and a fault detection device which are arranged on the base, wherein, mold handles are arranged on the stepping indexing turntable, the stepping indexing turntable is a sixteen-station axial stepping indexing turntable and comprises a disc-shaped turntable and sixteen mold handles uniformly arranged on a circumference concentric with the turntable and adjacent to the periphery of the turntable, and the axes of the mold handles are parallel to the axis of the turntable. The turntable is provided with a polishing station and a resolidification station. The sixteen-station curved surface printing machine has the advantages of high production efficiency and low equipment purchase cost, and can be used for printing of cylindrical surfaces and conical curved surfaces.

Description

The sixteen work station curved surface printing machine

Technical field

The utility model relates to a kind of printing machinery, particularly a kind of sixteen work station curved surface printing machine.

Background technology

For the outer surface with the made cup of plastics or metal foiled paper, bowl, flexible pipe and bottle cap used in everyday is the printed patterns that needs usually attractive in appearance, and the whole printing process of printing production line comprises automatically: material loading, detection, corona, printing, curing, glazing, curing, substandard products detect, finished product is sent.

Existing curved surface printing machine mainly comprises as shown in Figure 1: the printing main frame that is constituted by the big drum 1 of transfer printing, the version of all kinds roller printing ink unit 2 that cooperates with the big drum 1 of transfer printing, by stepping calibration rotating disk 3, be installed on mould on the described stepping calibration rotating disk 34, the drive unit 5 at intermittence that drives that stepping calibration rotating disk 3 the rotates device of undertaking the printing of, feeding slideway and the finished product output device that are constituted.Described printing main frame and the described device of undertaking the printing of are arranged on the pedestal 6.Described stepping calibration rotating disk is radially stepping calibration rotating disks of eight stations, described curved surface printing machine is also referred to as curve offset press, curved surface cup bowl printing machine, eight station curved surface printing machines, described eight stations radially stepping calibration rotating disk are all sides that the finger print handle is located at the calibration rotating disk, and mould is the axis normal of axis and described calibration rotating disk.Described eight stations are in regular turn: one, go up cup and empty cup detection; Two, top cup and two cup detect; Three, first corona; Four, second corona; Five, printing, six, transmission and substandard products eject; Seven, solidify; Eight, finished product output.

Therefore, existing eight station curved surface printing machines can not carry out glazing to workpiece, need carry out glazing and last photocuring with polisher in addition for the workpiece of glazing.This has not only increased the equipment purchasing expense, and reduced speed of production, also need material loading in last photoreduction process, detect, go out cup and operations such as technology, existing this eight station curved surface printing machines can not be used for the workpiece of printed circle cylindricality, as the bottle cap flexography etc.

If simply existing eight stations radially increase on the stepping calibration rotating disk glazing and on photocuring, to the diameter of calibration rotating disk be increased, rotary inertia increases, and seriously will influence speed of production, also has polisher simultaneously and goes up the installation of uv equipment and the problem of space.

In view of the above-mentioned existing existing above-mentioned defective of eight station curved surface printing machines, the utility model people, actively innovate, create sixteen work station curved surface printing machine of the present utility model finally through constantly developing repeatedly, this printing function is finished the overall process of printing, curing, glazing, curing, enhance productivity, reduce the equipment purchasing cost.

Summary of the invention

Main purpose of the present utility model is, overcome the above-mentioned defective that existing curved surface printing machine exists, and a kind of sixteen work station curved surface printing machine, technical problem to be solved are provided is the flexography function to be finished comprise that glazing and glazing are solidificated in interior whole printing process.

The purpose of this utility model and solve its technical problem and realize by the following technical solutions.According to a kind of sixteen work station curved surface printing machine that the utility model proposes, comprise by the big drum of transfer printing, the printing main frame that version roller of all kinds that cooperates with the big drum of transfer printing and printing ink unit are constituted, by stepping calibration rotating disk, drive the device of undertaking the printing of that intermittence, drive unit was constituted of stepping calibration rotating disk rotation, carry described printing main frame and the pedestal of the device of undertaking the printing of, the feeding slideway, finished product output device and be located at charging and extra quality detection on the pedestal, empty material detects, corona, printing, solidify, substandard products eject, failure detector, described stepping calibration rotating disk is provided with the mould handle, wherein said stepping calibration rotating disk is the axial stepping calibration of a sixteen work station rotating disk, described axial stepping calibration rotating disk be by the disc rotating disk and evenly be arranged at rotating disk concentric near 16 moulds on the circumference of rotating disk periphery constitute, and the axis of described mould handle and described turntable shaft line parallel, described pedestal is provided with glazing device and last light curring unit.

The purpose of this utility model and solve its technical problem and also can be applied to the following technical measures to achieve further.

Aforesaid sixteen work station curved surface printing machine, first station in the sixteen work station on the axial stepping calibration of the wherein said sixteen work station rotating disk are that charging detects station with two cups, are positioned on the twelve-hour center line of rotating disk; Second station is that empty cup detects station, is positioned at by the right side of twelve-hour center line of rotating disk, and the 3rd station is the corona station; The 4th station is a room operation station; The 5th station is a printing station, is positioned on the three center line of rotating disk; The 6th station is a room operation station; The 7th station is that station is solidified in printing; The 8th station is a room operation station; The 9th station is the glazing station, and six o'clock that is positioned at rotating disk is on the center line; The tenth station is a room operation station; The 11 station is to go up the photocuring station; Twelve-station is a room operation station; The 13 is that substandard products eject station, is positioned on the nine o'clock center line; The 14 station is a finished product discharging station; The 15 station is that fault detects station, detects mould whether last finished product is broken away from; Sixteen work station is room operation work.

Described sixteen work station curved surface printing machine, wherein comprise rotating disk by the axial stepping calibration of the sixteen work station rotating disk that described intermittence, drive unit drove, planetary gear, the annulus ring gear, drive motors and transmission device, described mould is being located on the described rotating disk, the central shaft of described rotating disk connects the output shaft of drive unit at described intermittence, described rotating disk is provided with 16 axis holes, described 16 axis holes be uniformly distributed in the coaxial circumference of described rotating disk near the rotating disk periphery on, described mould is axle being hubbed in the axis hole of described rotating disk periphery by mould, described mould sets firmly described planetary gear to the other end of axle, described annulus ring gear is sheathed on all planetary outsides, and with all planetary gear engagements, described annulus ring gear connects described drive motors by transmission device.

Described sixteen work station curved surface printing machine, wherein comprise rotating disk by the axial stepping calibration of the sixteen work station rotating disk that described intermittence, drive unit drove, friction sleeve, friction pulley, drive motors and transmission device, described mould is being located on the described rotating disk, the central shaft of described rotating disk connects the output shaft of drive unit at described intermittence, described rotating disk is provided with 16 axis holes, described 16 axis holes be uniformly distributed in the coaxial circumference of described rotating disk near the rotating disk periphery on, described mould is axle being hubbed in the axis hole of described rotating disk periphery by mould, described mould sets firmly described friction sleeve to the other end of axle, described friction pulley is hubbed on the described disk middle spindle, and with all friction sleeve CONTACT WITH FRICTION, described friction pulley connects described drive motors by transmission device, the periphery of described friction pulley and described friction sleeve is corresponding taper seat, and is provided with in the described friction sleeve the spring of its top to friction pulley.

Described sixteen work station curved surface printing machine, the feeding station of the axial stepping calibration of wherein said sixteen work station rotating disk is provided with the synchronous feeding top cup device of feeding push rod to the holotype handle, the outlet of described feeding slideway is between the feeding push rod of the mould handle of feeding station and described synchronous feeding top cup device, and described synchronous feeding top cup device is provided with the two cup detecting sensors that detect feeding push rod position.

Described sixteen work station curved surface printing machine, wherein said synchronous feeding top cup device comprises: the feeding push rod, slide block connecting rod, fork, toggle, slide block, slide rail, the sliding rail rack of push rod fixed head and fixing described slide rail, described fork, sliding rail rack with respect to intermittence the drive unit casing fix, the crank of described toggle is driven by the output of drive unit at described intermittence, the connecting rod of described toggle connects described fork, the swinging end of described fork connects described slide block by described slide block connecting rod, described slide block is slidedly arranged on the described slide rail, described feeding push rod is fixed by push rod fixed head and described slide block, described two cup detecting sensor is located on the described push rod fixed head, by detecting described feeding push rod position, judge whether to be two cups, the front end of described feeding push rod is over against the mould handle of described feeding station, station of the every rotation of the axial stepping calibration of described sixteen work station rotating disk, when the axial stepping calibration of sixteen work station rotating disk intermittently stopped, described feeding push rod top was to the mould handle.

Described sixteen work station curved surface printing machine, wherein said feeding push rod is an elasticity feeding push rod, described top board fixed head is provided with the push rod accommodation chamber, one end of described accommodation chamber is provided with slide opening, described feeding push rod is provided with baffle ring, the two ends of described feeding push rod are provided with screw rod, described feeding push rod is slidedly arranged in the described push rod accommodation chamber, one end of described feeding push rod is stretched out by described push rod accommodation chamber end slide opening, one spring housing is located on the described feeding push rod, and with a described spring of flange roof pressure that is fixed in the described push rod accommodation chamber other end, the other end of described spring is by the described feeding push rod of the baffle ring roof pressure on the described feeding push rod, twist a sheathed push rod head on the screw rod of described feeding push rod subtend mould handle, the other end twist establish one can be by the induction covers of described two cup detecting sensors identification, and fix with nut, the probe of described two cup detecting sensors is positioned at the front end of described induction cover, induced signal is arranged this moment, when two cup occurring, move behind the induction cover on the feeding push rod, away from the probe of described two cup detecting sensors, the non-inductive signal of described two cup detecting sensors.

Described sixteen work station curved surface printing machine, wherein said the 6th printing station are provided with the synchronous printing top cup device over against the 6th station mould handle.

Described sixteen work station curved surface printing machine, wherein said synchronous printing top cup device comprises: the printing push rod, the push rod support arm, the cam crank-rocker mechanism, slide block, slide rail and slide block connecting rod, described fork, slide rail is fixed with respect to pedestal, the cam of described cam swing mechanism is driven by the output of drive unit at described intermittence, described slide block connecting rod one end connects described fork, the other end connects described slide block, described slide block is slidedly arranged on the above slide rail, described printing push rod is fixed by described push rod support arm and described slide block, described push rod support arm is provided with screwed pipe, described printing push rod is by the top cover, screw rod and handwheel constitute, the end of described screw rod is provided with the top cover, described screw rod spiral shell is located in the screwed pipe on the described push rod support arm, described handwheel is fixed in the other end of described screw rod, when the axial stepping calibration of described sixteen work station rotating disk is had a rest when stopping, described printing push rod top is to the mould handle.

Described sixteen work station curved surface printing machine, the wherein said glazing device of being located on the pedestal be positioned at the axial stepping calibration of described sixteen work station rotating disk the glazing station under, the side of described glazing device vertically is slidedly arranged on the described pedestal by sliding-rail sliding, and the bottom surface of described glazing device is provided with the cylinder of its upper and lower displacement of control.

The utility model compared with prior art has tangible advantage and beneficial effect.By technique scheme, the utility model sixteen work station curved surface printing machine can reach suitable technological progress and practicality, and has the extensive value on the industry, and it has following advantage at least:

1, the utility model sixteen work station flexography function is finished the overall process of printing, glazing, enhances productivity, and reduces the equipment purchasing cost, increase economic efficiency, on practicality of using and cost benefit, it is required to meet industry development really fully, quite has industrial utilization.

2, the utility model sixteen work station curved surface printing machine can not only printed circle conical surface workpiece, and can finish printed circle cylinder workpiece, as the flexography of bottle cap, toothpaste tube, cylindrical tube.

In sum, the sixteen work station curved surface printing machine of the utility model novelty, the utlity model has above-mentioned plurality of advantages and practical value, it is not taken turns all bigger improvement on the structure of equipment or function, obvious improvement is arranged technically, and has produced handy and practical effect, and more existing curved surface printing machine has the outstanding multinomial effect of enhancement, thereby being suitable for practicality more, and having the extensive value of industry, really is a new and innovative, progressive, practical new design.

Above-mentioned explanation only is the general introduction of technical solutions of the utility model, for can clearer understanding technological means of the present utility model, and can be implemented according to the content of specification, and for above-mentioned and other purposes, feature and advantage of the present utility model can be become apparent, below especially exemplified by preferred embodiment, and conjunction with figs., be described in detail as follows.

Description of drawings

Fig. 1 is the structural representation of existing curved surface printing machine.

Fig. 2 is the structural representation of the utility model sixteen work station curved surface printing machine.

Fig. 3 is the structural representation of the embodiment one of the axial stepping calibration of the utility model sixteen work station rotating disk.

Fig. 4 is the structural representation of the axial stepping calibration of the utility model sixteen work station rotating disk embodiment two.

Fig. 5 is the structural representation of the synchronous feeding top cup device of the utility model sixteen work station curved surface printing machine.

Fig. 6 is the structural representation of the synchronous printing top cup device of the utility model sixteen work station curved surface printing machine.

The specific embodiment

For further setting forth the utility model is to reach technological means and the effect that predetermined utility model purpose is taked, below in conjunction with accompanying drawing and preferred embodiment, to the specific embodiment, structure, feature and effect thereof according to the sixteen work station curved surface printing machine that the utility model proposes, describe in detail as after.

See also shown in Figure 2, the sixteen work station curved surface printing machine of the utility model preferred embodiment, comprise by the big drum 11 of transfer printing, the printing main frame 10 that version roller of all kinds that cooperates with the big drum of transfer printing and printing ink unit 12 are constituted, by stepping calibration rotating disk 21, drive the device 20 of undertaking the printing of that the drive unit 23 at intermittence of stepping calibration rotating disk 21 rotations is constituted, carry the pedestal 30 of the described printing main frame 10 and the device 20 of undertaking the printing of, feeding slideway 40 and finished product output device 50 and be located at charging and extra quality detection on the pedestal, empty material detects, corona, printing, solidify, substandard products eject, the failure detector (not shown), described stepping calibration rotating disk 21 is provided with mould 22, wherein said stepping calibration rotating disk 21 is the axial stepping calibration of sixteen work station rotating disks, described axial stepping calibration rotating disk is by disc rotating disk 211 and evenly is arranged at concentric 16 moulds near on the circumference of rotating disk periphery of rotating disk 211 22 are constituted, and institute's mould is parallel with described rotating disk 211 axis 22 axis.Described pedestal 30 is provided with glazing device 60 and last light curring unit 100.

As shown in the figure, the first station A in the sixteen work station on the axial stepping calibration of the described sixteen work station rotating disk is charging and two cups detect stations, be positioned at rotating disk the twelve-hour center line on, over against the discharging opening of feeding slideway 40; The second station B is that empty cup detects station, is positioned at by the right side of twelve-hour center line of rotating disk, and the 3rd station C is the corona station; The 4th station D is a room operation station; The 5th station E is a printing station, is positioned on the three line; The 6th station F is a room operation station; The 7th station G solidifies station; The 8th station H is a room operation station; The 9th station I is the oil polish station; Be positioned on the six clock center lines; The tenth station J is a room operation station; The 11 worker K position is to go up the photocuring station; Twelve-station L is a room operation station; The 13 station M is that substandard products eject station; The 14 station N is a feeding finished product discharging station; The 15 station 0 is that fault detects station, detects mould whether last finished product is broken away from, if mould fails last workpiece to break away from, enters next station, and first feed station through liftout, will cause workpiece to damage; The 16 P station is a room operation station.

See also shown in Figure 3, the axial stepping calibration of sixteen work station rotating disk 21 by described drive unit 23 drivings at intermittence comprises rotating disk 211, planetary gear 212, annulus ring gear 213, drive motors 214 and transmission device, described mould is located at 22 on the described rotating disk 211, the central shaft of described rotating disk 211 connects drive unit 23 output shaft at described intermittence, described rotating disk 211 is provided with 16 axis holes 215, described 16 axis holes 215 be uniformly distributed in the coaxial circumference of described rotating disk near the rotating disk periphery on, described mould is hubbed at 22 axle in the axis hole 215 of described rotating disk periphery by mould, described mould sets firmly described planetary gear 212 to the other end of axle, described annulus ring gear 213 is sheathed on the outside of all planetary gears 212, and with all planetary gear 212 engagements, described annulus ring gear 213 connects described drive motors 214 by transmission device 216, and described transmission device is gear drive or synchronous belt transmission device.

During work, 21 intermittent movements of the axial stepping calibration of the described drive unit 23 described sixteen work stations of driving at intermittence rotating disk, make mould stopping the operation of finishing each station at each station in regular turn, duration of work in each operation, it is static that its central shaft keeps, meanwhile, drive motors 214 drives described annulus ring gear 213 rotations by described transmission device, drive described mould 22 synchronous autobiographies with 212 of each planetary gears of described annulus ring gear engagement, finish the operation that printing, glazing, curing etc. need the workpiece rotation.Overcome the deficiency that prior art adopts three synchronous motor friction-driven to be brought respectively at above-mentioned station.

See also shown in Figure 4, Fig. 4 provides the embodiment of the another kind employing friction pulley of the axial stepping calibration of sixteen work station rotating disk, in the present embodiment, the axial stepping calibration of described sixteen work station rotating disk 21 ' comprises rotating disk 211 ', friction sleeve 217, friction pulley 218, friction pulley drive motors 214 ' and transmission device 216 ', drive unit 23 intermittently, described mould is located at 22 on the described rotating disk 211 ', the central shaft of described rotating disk 211 ' connects drive unit 23 output shaft at described intermittence, described rotating disk 211 ' is provided with 16 axis holes 215 ', described 16 axis holes 215 ' be uniformly distributed in the coaxial circumference of described rotating disk 211 ' near the rotating disk periphery on, described mould is hubbed at 22 axle in the axis hole 215 ' of described rotating disk periphery by mould, described mould sets firmly described friction sleeve 217 to the other end of axle, described friction pulley 218 is hubbed on the described disk middle spindle, and with all friction sleeve CONTACT WITH FRICTION, described friction pulley 218 connects described friction pulley drive motors 214 ' by transmission device 216 ', and described transmission device is gear drive or synchronous belt transmission device.For guaranteeing that friction sleeve reliably contacts with friction pulley, the periphery of described friction pulley and described friction sleeve is corresponding taper seat, and is provided with in the described friction sleeve the spring 219 of its top to friction pulley

During work, 21 ' the intermittent movement of the axial stepping calibration of the described drive unit 23 described sixteen work stations of driving at intermittence rotating disk, make mould stopping the operation of finishing each station at each station in regular turn, duration of work in each operation, it is static that its central shaft keeps, meanwhile, friction pulley drive motors 214 drives described friction pulley 217 rotations by described transmission device, with described friction pulley 217 CONTACT WITH FRICTION 216 of each friction sleeves drive described moulds 22 synchronous autobiographies, finish the operation that printing, glazing, curing etc. need workpiece to rotate.Overcome the deficiency that prior art adopts three synchronous motor friction-driven to be brought respectively at above-mentioned station.

As shown in Figure 2, the feeding station of the axial stepping calibration of described sixteen work station rotating disk is provided with 71 pairs of holotypes of feeding push rod 22 synchronous feeding top cup device 70, the outlet of described feeding slideway 40 the mould of feeding station 22 and the feeding push rod 71 of described synchronous feeding top cup device 70 between, described synchronous feeding top cup device 70 is provided with the two cup detecting sensors 80 (referring to Fig. 5) that detect feeding push rod position.

See also shown in Figure 5, described synchronous feeding top cup device 70 comprises: feeding push rod 71, slide block connecting rod 72, fork 73, the toggle that crank 74 and connecting rod 75 are constituted, slide block 77, slide rail 78, the sliding rail rack 79 of push rod fixed head 711 and fixing described slide rail, described fork 73, sliding rail rack 79 with respect to intermittence drive unit 23 casing fix, the output of the crank 74 of described toggle drive unit at described intermittence 23 drives, the connecting rod 75 of described toggle connects described fork 73, the swinging end of described fork 73 connects described slide block 77 by described slide block connecting rod 72, described slide block 77 is slidedly arranged on the above slide rail 78, described feeding push rod 71 is fixed by push rod fixed head 711 and described slide block 77, described two cup detecting sensor 80 is located on the described push rod fixed head, the probe of described two cup detecting sensors 80 is near described feeding push rod rear end, described feeding push rod rear end is provided with sensor block 82, the front end of described feeding push rod is over against the mould handle of the described first feeding station, by detecting the position of described feeding push rod 71, judge whether to be two cups, when the axial stepping calibration of sixteen work station rotating disk is had a rest when stopping, described feeding push rod 71 tops are to the mould handle.

Described feeding push rod 71 is an elasticity feeding push rod, described top board fixed head 711 is provided with push rod accommodation chamber 712, one end of described accommodation chamber 712 is provided with slide opening 713, described feeding push rod 71 is provided with baffle ring 714, the two ends of described feeding push rod 714 are provided with screw rod 715,716, described feeding push rod 71 is slidedly arranged in the described push rod accommodation chamber 712, one end of described feeding push rod 71 is stretched out by described push rod accommodation chamber 712 end slide openings 713, one spring 717 is sheathed on the described feeding push rod, and with a described spring 717 of flange 720 roof pressures that is fixed in the described push rod accommodation chamber other end, described spring 717 is by the described feeding push rod 71 of baffle ring 714 roof pressures on the described feeding push rod, twist a sheathed push rod head 718 on the screw rod of described feeding push rod subtend mould handle, the other end twist establish one can be by the induction cover 82 of described two cup detecting sensors identification, and it is fixing with nut 719, the probe of described two cup detecting sensors 80 is positioned at the front end of described induction cover 82, induced signal is arranged this moment, when two cup occurring, move behind the induction cover 82 on the feeding push rod, away from the probe of described two cup detecting sensors 80, the non-inductive signal of described two cup detecting sensors.

As shown in Figure 2, described the 6th printing station F is provided with the synchronous printing top cup device 90 over against the 6th station mould handle.

See also shown in Figure 6, described synchronous printing top cup device 90 comprises: printing push rod 91, push rod support arm 92, the cam swing mechanism that is constituted by cam 93 and fork 94, slide block 96, slide rail 97 and slide block connecting rod 98, described fork 94, slide rail 97 is fixing with respect to pedestal 30, the cam 93 of described cam swing mechanism is driven by drive unit 23 output at described intermittence, described slide block connecting rod 98 1 ends connect described fork 94, the other end connects described slide block 96, described slide block 96 is slidedly arranged on the above slide rail 97, and described printing push rod 91 is fixed by described push rod support arm 92 and described slide block 96.Described push rod support arm 92 is provided with screwed pipe 99, described printing push rod 91 be by top cover 911, screw rod 912, and handwheel 915 constituted, the end of described screw rod 912 is provided with top cover 911, described screw rod 912 spiral shells are located in the screwed pipe 99 on the described push rod support arm 92, described handwheel 915 is fixed in the end of described screw rod 912, rotation hand wheel can be regulated the distance between described top cover 911 and the mould handle, to adapt to the needs of differing heights Workpiece printing.When the axial stepping calibration of sixteen work station rotating disk intermittently stopped, described printing push rod top 91 was to the mould handle.

As shown in Figure 2, the described glazing device of being located on the pedestal 30 60 be positioned at the axial stepping calibration of described sixteen work station rotating disk 21 glazing station J under, the side of described glazing device 60 vertically is slidedly arranged on the described pedestal 30 by sliding-rail sliding 61, the bottom surface of described glazing device 60 is provided with the cylinder 62 of its upper and lower displacement of control, and the transmission of its glazing is by motor 63 drive.

The above, it only is preferred embodiment of the present utility model, be not that the utility model is done any pro forma restriction, though the utility model discloses as above with preferred embodiment, yet be not in order to limit the utility model, any those skilled in the art, in not breaking away from the technical solutions of the utility model scope, when the technology contents that can utilize above-mentioned announcement is made a little change or is modified to the equivalent embodiment of equivalent variations, in every case be the content that does not break away from technical solutions of the utility model, according to technical spirit of the present utility model to any simple modification that above embodiment did, equivalent variations and modification all still belong in the scope of technical solutions of the utility model.

Claims (10)

1. sixteen work station curved surface printing machine, comprise by the big drum of transfer printing, the printing main frame that version roller of all kinds that cooperates with the big drum of transfer printing and printing ink unit are constituted, by stepping calibration rotating disk, drive the device of undertaking the printing of that intermittence, drive unit was constituted of stepping calibration rotating disk rotation, carry described printing main frame and the pedestal of the device of undertaking the printing of, the feeding slideway, finished product output device and be located at charging and extra quality detection on the pedestal, empty material detects, corona, printing, solidify, substandard products eject, failure detector, described stepping calibration rotating disk is provided with the mould handle, it is characterized in that described stepping calibration rotating disk is the axial stepping calibration of a sixteen work station rotating disk, described axial stepping calibration rotating disk be by the disc rotating disk and evenly be arranged at rotating disk concentric near 16 moulds on the circumference of rotating disk periphery constitute, and the axis of described mould handle and described turntable shaft line parallel, described pedestal is provided with glazing device and last light curring unit.

2. sixteen work station curved surface printing machine according to claim 1 is characterized in that first station in the sixteen work station on the axial stepping calibration of the described sixteen work station rotating disk is that charging detects station with two cups, is positioned on the twelve-hour center line of rotating disk; Second station is that empty cup detects station, is positioned at by the right side of twelve-hour center line of rotating disk, and the 3rd station is the corona station; The 4th station is a room operation station; The 5th station is a printing station; Be positioned on the three center line of rotating disk; The 6th station is a room operation station; The 7th station is that station is solidified in printing; The 8th station is a room operation station; The 9th station is the glazing station, and six o'clock that is positioned at rotating disk is on the center line; The tenth station is a room operation station; The 11 station is to go up the photocuring station; Twelve-station is a room operation station; The 13 station is that substandard products eject the material station; Be positioned on the nine o'clock center line, the 14 station is a finished product discharging station; The 15 station is that fault detects station, detects mould whether last finished product is broken away from; Sixteen work station is a room operation station.

3. sixteen work station curved surface printing machine according to claim 1, it is characterized in that the axial stepping calibration of the sixteen work station rotating disk that drive unit drives by described intermittence comprises rotating disk, planetary gear, the annulus ring gear, drive motors and transmission device, described mould is being located on the described rotating disk, the central shaft of described rotating disk connects the output shaft of drive unit at described intermittence, described rotating disk is provided with 16 axis holes, described 16 axis holes be uniformly distributed in the coaxial circumference of described rotating disk near the rotating disk periphery on, described mould is axle being hubbed in the axis hole of described rotating disk periphery by mould, described mould sets firmly described planetary gear to the other end of axle, described annulus ring gear is sheathed on all planetary outsides, and with all planetary gear engagements, described annulus ring gear connects described drive motors by transmission device.

4. sixteen work station curved surface printing machine according to claim 1, it is characterized in that the axial stepping calibration of the sixteen work station rotating disk that drive unit drives by described intermittence comprises rotating disk, friction sleeve, friction pulley, friction pulley drive motors and transmission device, described mould is being located on the described rotating disk, the central shaft of described rotating disk connects the output shaft of drive unit at described intermittence, described rotating disk is provided with 16 axis holes, described 16 axis holes be uniformly distributed in the coaxial circumference of described rotating disk near the rotating disk periphery on, described mould is axle being hubbed in the axis hole of described rotating disk periphery by mould, described mould sets firmly described friction sleeve to the other end of axle, described friction pulley is hubbed on the described disk middle spindle, and with all friction sleeve CONTACT WITH FRICTION, described friction pulley connects described friction pulley drive motors by transmission device, the periphery of described friction pulley and described friction sleeve is corresponding taper seat, and is provided with in the described friction sleeve the spring of its top to friction pulley.

5. sixteen work station curved surface printing machine according to claim 1, the feeding station that it is characterized in that the axial stepping calibration of described sixteen work station rotating disk is provided with the synchronous feeding top cup device of feeding push rod to the holotype handle, the outlet of described feeding slideway is between the feeding push rod of the mould handle of feeding station and described synchronous feeding Lifting Device, and described synchronous feeding top cup device is provided with the extra quality detecting sensor that detects feeding push rod position.

6. sixteen work station curved surface printing machine according to claim 5, it is characterized in that described synchronous feeding Lifting Device comprises: the feeding push rod, slide block connecting rod, fork, toggle, slide block, slide rail, the sliding rail rack of push rod fixed head and fixing described slide rail, described fork, sliding rail rack with respect to intermittence the drive unit casing fix, the crank of described toggle is driven by the output of drive unit at described intermittence, the connecting rod of described toggle connects described fork, the swinging end of described fork connects described slide block by described slide block connecting rod, described slide block is slidedly arranged on the described slide rail, described feeding push rod is fixed by push rod fixed head and described slide block, described two cup detecting sensor is located on the described push rod fixed head, by detecting described feeding push rod position, judge whether to be two cups, the front end of described feeding push rod is over against the mould handle of described feeding station, station of the every rotation of the axial stepping calibration of described sixteen work station rotating disk, when the axial stepping calibration of sixteen work station rotating disk intermittently stopped, described feeding push rod top was to the mould handle.

7. sixteen work station curved surface printing machine according to claim 6, it is characterized in that described feeding push rod is an elasticity feeding push rod, described top board fixed head is provided with the push rod accommodation chamber, one end of described accommodation chamber is provided with slide opening, described feeding push rod is provided with baffle ring, the two ends of described feeding push rod are provided with screw rod, described feeding push rod is slidedly arranged in the described push rod accommodation chamber, one end of described feeding push rod is stretched out by described push rod accommodation chamber end slide opening, one spring housing is located on the described feeding push rod, and with a described spring of flange roof pressure that is fixed in the described push rod accommodation chamber other end, the other end of described spring is by the described feeding push rod of the baffle ring roof pressure on the described feeding push rod, twist a sheathed push rod head on the screw rod of described feeding push rod subtend mould handle, the other end twist establish one can be by the induction covers of described two cup detecting sensors identification, and fix with nut, the probe of described two cup detecting sensors is positioned at the front end of described induction cover, induced signal is arranged this moment, when two cup occurring, move behind the induction cover on the feeding push rod, away from the probe of described two cup detecting sensors, the non-inductive signal of described two cup detecting sensors.

8. sixteen work station curved surface printing machine according to claim 2 is characterized in that described the 6th printing station is provided with the synchronous printing top cup device over against the 6th station mould handle.

9. sixteen work station curved surface printing machine according to claim 8, it is characterized in that described synchronous printing top cup device comprises: the printing push rod, the push rod support arm, cam swing mechanism, slide block, slide rail and slide block connecting rod, described fork, slide rail is fixed with respect to pedestal, the cam of described cam swing mechanism is driven by the output of drive unit at described intermittence, described slide block connecting rod one end connects described fork, the other end connects described slide block, described slide block is slidedly arranged on the above slide rail, described printing push rod is fixed by described push rod support arm and described slide block, described push rod support arm is provided with screwed pipe, described printing push rod is by the top cover, screw rod and handwheel constitute, the end of described screw rod is provided with the top cover, described screw rod spiral shell is located in the screwed pipe on the described push rod support arm, described handwheel is fixed in the other end of described screw rod, when the axial stepping calibration of described sixteen work station rotating disk dish is had a rest when stopping, described printing push rod top is to the printed matter of mould handle.

10. sixteen work station curved surface printing machine according to claim 1, it is characterized in that the described glazing device of being located on the pedestal be positioned at the axial stepping calibration of described sixteen work station rotating disk the glazing station under, the side of described glazing device vertically is slidedly arranged on the described pedestal by sliding-rail sliding, and the bottom surface of described glazing device is provided with the cylinder of its upper and lower displacement of control.

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