CN105269926B - Offset machine - Google Patents
Offset machine Download PDFInfo
- Publication number
- CN105269926B CN105269926B CN201510329864.2A CN201510329864A CN105269926B CN 105269926 B CN105269926 B CN 105269926B CN 201510329864 A CN201510329864 A CN 201510329864A CN 105269926 B CN105269926 B CN 105269926B
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- Prior art keywords
- gear
- component
- machine according
- offset machine
- torsion
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Classifications
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B41—PRINTING; LINING MACHINES; TYPEWRITERS; STAMPS
- B41F—PRINTING MACHINES OR PRESSES
- B41F13/00—Common details of rotary presses or machines
- B41F13/008—Mechanical features of drives, e.g. gears, clutches
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B41—PRINTING; LINING MACHINES; TYPEWRITERS; STAMPS
- B41F—PRINTING MACHINES OR PRESSES
- B41F31/00—Inking arrangements or devices
- B41F31/004—Driving means for ink rollers
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B41—PRINTING; LINING MACHINES; TYPEWRITERS; STAMPS
- B41F—PRINTING MACHINES OR PRESSES
- B41F7/00—Rotary lithographic machines
- B41F7/20—Details
- B41F7/24—Damping devices
- B41F7/26—Damping devices using transfer rollers
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B41—PRINTING; LINING MACHINES; TYPEWRITERS; STAMPS
- B41P—INDEXING SCHEME RELATING TO PRINTING, LINING MACHINES, TYPEWRITERS, AND TO STAMPS
- B41P2213/00—Arrangements for actuating or driving printing presses; Auxiliary devices or processes
- B41P2213/10—Constitutive elements of driving devices
- B41P2213/20—Gearings
- B41P2213/206—Planetary gears
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- Engineering & Computer Science (AREA)
- Mechanical Engineering (AREA)
- Inking, Control Or Cleaning Of Printing Machines (AREA)
- Rotary Presses (AREA)
Abstract
Offset machine includes:Plate cylinder (2);Ink architecture (3), including ink architecture roller (6,7) and the gear (8-11) for driving ink architecture roller (6,7);It soaks mechanism (4), including wetting mechanism roller (12,13) and the gear (14-17) for driving wetting mechanism roller (12,13);Planet gear transmission device (18) has with lower member (19-21):Hollow wheel gear (19), sun gear (20) and pinion frame (21);Gear unit (23), with unique gear or two mutually coaxial gears (24,25), gear unit (23) be coaxially disposed with one of the component (19-21) of planet gear transmission device (18) (21) and anti-torsion connect, ink architecture (3) is connect by planet gear transmission device (18) with plate cylinder (2);One of one of the gear (8-11) of ink architecture (3) (8) and the gear (14-17) for soaking mechanism (17) are engaged to gear unit (23).
Description
Technical field
The present invention relates to a kind of offset machines comprising:Plate cylinder;Ink architecture, with ink architecture roller and
For driving the gear of the ink architecture roller;Mechanism is soaked, there is wetting mechanism roller and for driving the wetting mechanism
The gear of roller.
Background technique
A kind of printing machine is described in 195 04 426A1 of document DE, wherein in printing mechanism's roller still by the driving phase
Between, all rollers of ink architecture can shut down.In addition, friction roller reversal point can be relative to print in this printing machine
Version beginning is adjusted.For this purpose, rotating trunnion by adjusting motor, planetary gear can be rotated to support on the trunnion
On, there are two sprocket for planetary gear tool.One sprocket is engaged in the interior teeth portion of first gear, and another sprocket
It is engaged in the interior teeth portion of second gear.
A kind of printing machine is described in 10 2,009 001 509A1 of document DE, which has printing mechanism, should
Printing mechanism has master driver and single driver.Master driver is connect with plate cylinder, which fills with transmission is superimposed
Connection is set, which couples with single driver.
Summary of the invention
Task of the invention lies in realize another offset machine.
The task is solved by offset machine according to the present invention.
Offset machine according to the invention includes:Plate cylinder;Ink architecture, with ink architecture roller and for driving
Move the gear of the ink architecture roller;Mechanism is soaked, there is wetting mechanism roller and the tooth for driving the wetting mechanism roller
Wheel;Planet gear transmission device, the component with following form:Hollow wheel gear (gear ring), sun gear and planetary gear
Frame;Gear unit, with a unique gear or two mutually coaxial gears, gear unit and Planetary Gear Transmission
One of component of device be coaxially disposed and anti-torsion connect, wherein ink architecture by planet gear transmission device and print
Plate cylinder connection, also, one of gear of ink architecture and one of the gear of wetting mechanism are engaged in gear unit.
A kind of improvement project includes:Pacify with soaking that the gear anti-torsion for being engaged to gear unit in the gear of mechanism
It sets on jackshaft, and another gear soaked in the gear of mechanism is rotatably disposed on the jackshaft.
A kind of improvement project includes:Soak another tooth being rotatably disposed on jackshaft in the gear of mechanism
Wheel can be connect by switch clutch with the jackshaft anti-torsion.
A kind of improvement project includes:Soak another tooth being rotatably disposed on jackshaft in the gear of mechanism
Wheel is engaged in another gear in the gear of wetting mechanism.
A kind of improvement project includes:Another described gear is rotatably disposed in the structure with planet gear transmission device
It can be connect on the axis connected to a component anti-torsion in part and by another switch clutch with the axis anti-torsion.
A kind of improvement project includes:The component of planet gear transmission device connecting with axis anti-torsion is hollow wheel gear,
And the axis is hollow gear shaft.
A kind of improvement project includes:The connection of one of component of motor and planet gear transmission device.
A kind of improvement project includes:Equipped with locking brake, for being kept by the component being connect with motor and by motor
In the state of stopping rotating.
A kind of improvement project includes:The component that connect with motor is different from being coaxially disposed with gear unit and anti-torsion
The component of connection.
A kind of improvement project includes:The component connecting with motor is sun gear.
A kind of improvement project includes:Flywheel is arranged in the force flow between motor and ink architecture roller.
A kind of improvement project includes:Be coaxially disposed with gear unit and anti-torsion the component that connect be planetary gear
Frame.
A kind of improvement project includes:Be coaxially disposed with gear unit and anti-torsion the component that connect there is hollow shaft,
One axis extends through the hollow shaft.
A kind of improvement project includes:The axis for extending through hollow shaft is sun wheel shaft and connects with sun gear anti-torsion
It connects.
A kind of improvement project includes:Equipped with locking brake, ink architecture is protected for being realized in lasting printing operation
It holds in the state of stopping rotating.
A kind of improvement project includes:Ink architecture is maintained at the state of stopping rotating for realizing in lasting printing operation
The locking brake, act on being coaxially disposed in the component of planet gear transmission device with gear unit and anti-torsion
The component of ground connection.
A kind of improvement project includes:In the flrst mode, a component in the component of planet gear transmission device passes through
One switch clutch is connect with a gear in the gear of wetting mechanism, under the second mode, planet gear transmission device
Another component in component is connect by another switch clutch with the same gear of wetting mechanism.Described two switching clutches
Device is related to the switch clutch being already mentioned above in aforementioned improved scheme.Preferably, hollow wheel gear is to connect in the flrst mode
The component connect, and pinion frame is the component connected under the second mode.Described two components are alternately connect with gear.Institute
State two components can by switch clutch connect gear be in wetting mechanism another gear engage, another gear and
Wetting mechanism roller be coaxially disposed and anti-torsion connect.Another gear can be fixedly mounted on the axle journal of wetting mechanism roller
It above and is the gear being uniquely arranged on the axle journal.
Detailed description of the invention
Other schemes that are advantageously improved are obtained by preferred embodiment and its being described below for affiliated attached drawing.
Fig. 1 schematically illustrates printing machine 1.
Specific embodiment
Fig. 1 schematically illustrates printing machine 1, which has plate cylinder 2 and the ink architecture 3 attached and profit
Wet mechanism 4.Printing machine 1 is offset machine.Plate cylinder 2 carries offset printing forme 5.Ink architecture 3 includes ink architecture roller
6,7 and the gear 8,9,10,11 for driving the ink architecture roller 6,7.Mechanism 4 is soaked to include wetting mechanism roller 12,13 and use
In the gear 14,15,16,17 for driving the wetting mechanism roller 12,13.
Gear 14 is the gear being uniquely placed on the axle journal of wetting mechanism roller 13.Nonetheless, following systems is to have
The mode of benefit can be realized wetting mechanism roller 13 selectively with the first operation mode (skid operation) and in the second operating mode
(synchronous operation) operation, first operational mode have the circumferential surface of peripheral speed and plate cylinder 2 in wetting mechanism roller 13
Difference between speed does not have this difference under second operational mode.In order to realize this point on drive technology, described
Without there is the second gear on the axle journal of wetting mechanism roller 13 in system.
The system another advantage is that even if wetting mechanism roller 13 is in the feelings of state of stopping rotating in ink architecture 3
It can also run under condition, (be scraped off for example to execute the automatically cleaning of wetting mechanism roller 13 by skidding with the first operation mode
Particle).For this purpose, not needing additionally to directly drive wetting mechanism roller 13.
Planet gear transmission device 18 includes hollow wheel gear 19, sun gear 20 and the planetary gear with planetary gear 22
Frame 21.Hollow wheel gear 19 is the foreign steamer of the internal messing of planet gear transmission device 18, and sun gear 20 is the lubrication groove of its external toothing.Tooth
Take turns unit 23 include gear 24 and gear 25, gear 25 be coaxially disposed with gear 24 and anti-torsion connect.Gear unit
23 be coaxially disposed with pinion frame 21 and anti-torsion connect, method is that gear 24,25 is fixedly mounted on planet
In the hollow shaft 26 of tooth rest 21.
Ink architecture 3 is connect by planet gear transmission device 18 with plate cylinder 2.The gear 8 of ink architecture 3 is engaged to
In gear unit 23, method is that gear 8 is engaged with gear 24.The gear 17 of wetting mechanism 4 is engaged in gear unit 23,
Its method is that gear 17 is engaged with gear 25.For driving the sun wheel shaft 27 of the sun gear 20 to extend through hollow shaft 26,
The sun gear is equally fixedly mounted in sun wheel shaft 27 as flywheel 38.
Motor 28 is directly connected to as direct driver with sun wheel shaft 27, and the motor can be alternatively by gear
Transmission device is connect with sun wheel shaft 27.In the presence of the gear assembly, flywheel 38 is not placed in the sun
On wheel shaft 27, and it is integrated into the gear assembly and is placed on an axis of the gear assembly.
Flywheel 38 is designed in this way in terms of geometry and quality, so that the moment of inertia of flywheel 38 accurately corresponds to ink
The moment of inertia of mechanism 3, so that flywheel 38 is used in an advantageous manner, compensated when ink architecture 3 stops its moment of inertia and because
This keeps constant the intrinsic frequency of entire machine.
Plate cylinder gear 29 be coaxially disposed with plate cylinder 2 and anti-torsion connect.Plate cylinder gear 29 is fixed
Ground is placed on the axis 30 of plate cylinder 2.Gear 31 tiltedly engages and is placed on axis 30 and can pass through as idle pulley
First switch clutch 32 is connect with the axis anti-torsion.In the switching position of the closure of the first switch clutch 32, torque
It is transmitted on axis 30 from gear 31, in open switching position, gear 31 can rotate on axis 30, and torque is not delivered to
On the axis.
Hollow wheel gear 19 and gear 33 are fixedly mounted on hollow gear shaft 34, and gear 15 is rotatably pacified as idle pulley
It sets on the hollow gear shaft.Gear 15 can be connect by the second switch clutch 35 with 34 anti-torsion of hollow gear shaft.Tooth
Wheel 33 is engaged with plate cylinder gear 29.
Alternatively it is possible that:Plate cylinder gear 29 is eliminated, and gear 33 is equipped with helical teeth portion and so set, makes
Gear 33 is obtained to engage with gear 31.
Gear 17 is fixedly mounted on the (annotation of jackshaft 36:Force flow is from first axle via on the second axis to third axis, this
Three axis are aligned with first axle, and the second axis of centre connection is known as jackshaft) on, and gear 16 is rotatably disposed as idle pulley
On the jackshaft.Jackshaft 36 is extended parallel to sun wheel shaft 27 and with hollow gear shaft 34.Gear 16 can pass through
Third switch clutch 37 is connect with 36 anti-torsion of jackshaft.
First locking 39 (English of brake:Fixing brake) sun gear 20, the sun are prevented under its state of activation
The rotation of wheel shaft 27 and motor 28.First locking brake 39 is desirably integrated into sun gear 20 and swashs in printing operation
It is living.Advantageously, the first locking brake 39 can be realized:In the printing operation not being powered to motor 28, make motor 28
Stop, therefore saving on electric energy.
Second locking brake 40 is activated, so that ink architecture 3 is maintained at stopping in the case where printing machine 1 is run
State.Second locking brake 40 is desirably integrated into pinion frame 21, or otherwise is acted on jackshaft 36.Rear
In a kind of situation, the second locking brake 40 is applied on pinion frame 21 by gear 17,25, so as to by the planetary gear
Frame is maintained at the state of stopping rotating.
The remodeling being not shown in the accompanying drawings below is possible:
Plate cylinder gear 29 can be used as idle pulley and be arranged on axis 30, and the plate cylinder gear can be cut by the 4th
Clutch is changed to connect with the axis anti-torsion.In the remodeling, in addition to main motor (being not shown in the accompanying drawings) and motor 28 it
May exist individual driver of another motor as plate cylinder 2 outside, such as direct driver.
Another remodeling includes:Gear unit 23 only includes unique gear, the not only gear 8 of ink architecture 3 but also profit
The gear 17 of wet mechanism 4 is meshed with unique gear.The remodeling can be for example achieved in:That is, gear 24 and 25 merges
At a unique very wide gear.
The system being shown in the accompanying drawings is run as follows:In printing operation, motor 28, which is in, to be stopped.Main motor by (
It is attached not shown in the figure) be rotatably driven in the case where the first switch clutch 32 be closed with 31 meshed gears of gear described in
Plate cylinder 2 and its plate cylinder gear 29.Plate cylinder gear 29 engages with gear 33 and transmits torque to the gear
It is upper to be transmitted on hollow gear shaft 34 in turn.Hollow gear shaft 34 passes through torque in the case where the second switch clutch 35 is closed
It is transmitted on gear 14 by gear 15, which engages with gear 15.Gear 14 is fixedly mounted on wetting mechanism roller 13
It on axis and transmits torque in wetting mechanism 4, the wetting mechanism roller 12,13 of the wetting mechanism is not each other by the accompanying drawings
The gear assembly that shows rotatably is connected by roller Skin friction.
Furthermore torque is transmitted on pinion frame 21 by hollow gear shaft 34 via hollow wheel gear 19, the pinion frame
Torque is transmitted to via gear 24, via with 24 meshed gears 8 of gear and via with 8 meshed gears 9 of gear
On another axis, gear 9 and gear 10 are fixedly mounted on another axis.By another axis by torque via gear 10 and with this
10 meshed gears 11 of gear is transmitted on the ink architecture roller 6,7 of ink architecture 3, and the ink architecture roller is each other by attached
Gear assembly not shown in the figure is rotatably connected by roller Skin friction.
One or more of ink architecture roller 6,7 is friction roller, the friction roller axially vibration in printing operation.
The vibration movement of friction roller and the rotary motion of plate cylinder are in determining phase relation, for example, friction roller is always printing
Reach the reversal point of its vibration movement in the spin angular position of the determination of plate cylinder 2.It can be needed for the reason of printing technology
, friction roller reaches reversal point in another spin angular position of plate cylinder 2, and therefore must carry out so-called friction
The so-called adjusting using the moment of phase adjusted (Reiberphasenverstellung) or friction roller.Rub phase tune
Section can carry out during printing operation, and method is to loosen the first locking brake 39 and activate motor 28, thus motor
The 28 driving sun gears 20.
It is realized in planet gear transmission device 18:19 rotary motion of hollow wheel gear that is driven by main motor with by horse
20 rotary motion of sun gear driven up to 28 is superimposed, wherein planet gear transmission device 18 is transported as superposition gearing
Row (annotation:That there are two driving movement or input motion and one is superimposed caused unique by its for superposition gearing tool
Driven motions or output movement, this is different from differential driver, and differential driver has a unique input fortune
Dynamic and two thus caused output campaigns.Described two transmission types --- superposition gearing and differential gearing dress
Set --- it is so structured that planet gear transmission device).
The driven motions or output movement are implemented by pinion frame 21, and the pinion frame is by described two drives
Revolving speed caused by movement or input motion is moved to rotate.Caused revolving speed can pass through an input speed (i.e. motor
28 revolving speed and then the revolving speed of sun gear 20) change and another input speed (revolving speed and then hollow wheel gear 19 of i.e. main motor
Revolving speed) it is constant in the case where change, to adjust the friction phase position.
Because the vibration movement of friction roller by pinion frame 21 by the vibration transmission device that is not shown in the accompanying drawings come
Driving, it is possible to change the vibration transmission device relative to plate cylinder 2 by temporarily activating the motor 28
Spin angular position changes the friction phase position in turn.
Another operational mode is possible, wherein the motor 28 is so driven, so that the revolving speed of sun gear 20 uses one
Magnitude, to be by the revolving speed of the superimposed caused pinion frame 21 of the revolving speed of sun gear 20 and the revolving speed of hollow wheel gear 19
Zero, and ink architecture 3 and wetting mechanism 4 is therefore made to be in state of stopping rotating, and remaining printing machine continues to run.
Another operational mode is clean run, which can realize when main motor stops according to the first modification,
And it is realized in main motor operation according to the second modification.
In the first modification, an input speed (i.e. the revolving speed of hollow wheel gear 19) for planet gear transmission device 18 is
Zero;And by the variation of another input speed (i.e. the revolving speed of 28 sun gear 20 of motor) by pinion frame 21 in turn
Optimal magnitude for the caused rotational speed regulation to the cleaning for ink architecture 3 of ink architecture 3.
In the second variant, the revolving speed of hollow wheel gear 19 is greater than zero, and so drives the motor 28 according to main motor,
So that superimposed by the revolving speed of hollow wheel gear 19 and sun gear 20 in planet gear transmission device 18 and cause for ink
Optimal 21 revolving speed of pinion frame for the cleaning of mechanism 3.
Exactly as in the second modification of clean run like that, institute is realized when progress ink becomes a mandarin during printing operation
State the revolving speed control of ink architecture 3.When ink becomes a mandarin, after ink is transported to ink architecture 3 from the ink fountain of ink architecture
It is placed in the component of ink fountain, is no ink and is for example just cleaned before the component.This ink becomes a mandarin can be in quilt
It is executed in dynamic formula printing mechanism, although the passive type printing mechanism conveys page when printing mechanism runs, without print
It brushes and sets up for subsequent print job, and the active printing mechanism of printing machine conveys the page of ongoing print job
It opens and is printed herein.
Reference signs list:
1 printing machine
2 plate cylinders
3 ink architectures
4 wetting mechanisms
5 offset printing formes
6 ink architecture rollers
7 ink architecture rollers
8 gears
9 gears
10 gears
11 gears
12 wetting mechanism rollers
13 wetting mechanism rollers
14 gears
15 gears
16 gears
17 gears
18 planet gear transmission devices
19 hollow wheel gears
20 sun gears
21 pinion frames
22 planetary gears
23 gear units
24 gears
25 gears
26 hollow shafts
27 sun wheel shafts
28 motors
29 plate cylinder gears
30 axis
31 gears
32 first switch clutch
33 gears
34 hollow gear shafts
35 second switch clutch
36 jackshafts
37 third switch clutch
38 flywheels
39 first locking brakes
40 second locking brakes
Claims (17)
1. a kind of offset machine comprising:
● plate cylinder (2);
● ink architecture (3), the gear (8- with ink architecture roller (6,7) and for driving the ink architecture roller (6,7)
11);
● wetting mechanism (4) has wetting mechanism roller (12,13) and the tooth for driving the wetting mechanism roller (12,13)
It takes turns (14-17);
● planet gear transmission device (18), the component (19-21) with following form:
Hollow wheel gear (19),
Sun gear (20), and
Pinion frame (21);
● gear unit (23), with a unique gear or two mutually coaxial gears (24,25), the gear
Unit (23) is coaxially disposed and resists with a component (21) in the component (19-21) of the planet gear transmission device (18)
Torsionally connect,
Wherein, the ink architecture (3) is connect by the planet gear transmission device (18) with the plate cylinder (2);And
And in the gear (14-17) of the gear (8) and wetting mechanism (4) in the gear (8-11) of the ink architecture (3)
A gear (17) be engaged in the gear unit (23).
2. offset machine according to claim 1, wherein the engagement in the gear (14-17) of wetting mechanism (4)
It is placed in that gear (17) anti-torsion in the gear unit on jackshaft (36) and wetting mechanism (4)
Another gear (16) in gear (14-17) can be rotatably disposed on the jackshaft (36).
3. offset machine according to claim 2, wherein can be revolved in the gear (14-17) of wetting mechanism (4)
Another gear (16) being placed in turning on the jackshaft (36) can be with the centre by switch clutch (37)
Connect to axis (36) anti-torsion.
4. offset machine according to claim 3, wherein it is described wetting mechanism (4) gear (14-17) in can
Another gear (16) being rotatably disposed on the jackshaft (36) is engaged to the gear (14- of wetting mechanism (4)
17) in another gear (15) in.
5. offset machine according to claim 4, wherein another described gear (15) be revolvably placed in
On the axis (34) connected to component (19) anti-torsion in the component (19-21) of the planet gear transmission device (18) simultaneously
And it can be connect by another switch clutch (35) with axis (34) anti-torsion.
6. offset machine according to claim 5, wherein the planet gear transmission device (18) with the axis
(34) component (19) connected to anti-torsion is hollow wheel gear (19), and the axis (34) is hollow gear shaft (34).
7. offset machine according to one of claims 1 to 6, wherein motor (28) and the Planetary Gear Transmission fill
Set a component (20) connection in the component (19-21) of (18).
8. offset machine according to claim 7, wherein be equipped with locking brake (39), being used for will be with the motor
(28) connect component (20) and the motor (28) is maintained at the state of stopping rotating.
9. offset machine according to claim 7, wherein the component (20) being connect with the motor (28) be different from
The gear unit (23) is coaxially disposed and the component (21) that connects of anti-torsion ground.
10. offset machine according to claim 9, wherein the component (20) connecting with the motor (28) is described
Sun gear (20).
11. the offset machine according to one of claim 7, wherein flywheel (38) is arranged in the motor (28) and institute
It states in the force flow between ink architecture roller (6,7).
12. offset machine according to one of claims 1 to 6, wherein be coaxially disposed with the gear unit (23)
And anti-torsion the component (21) that connects be the pinion frame (21).
13. offset machine according to one of claims 1 to 6, wherein be coaxially disposed with the gear unit (23)
And anti-torsion the component (21) that connects there are hollow shaft (26), an axis (27) extends through the hollow shaft.
14. offset machine according to claim 13, wherein the axis (27) for extending through the hollow shaft (26) is too
It positive wheel shaft (27) and is connect with the sun gear (20) anti-torsion.
15. offset machine according to one of claims 1 to 6, wherein locking brake (40) is equipped with, for holding
It is realized in continuous printing operation and the ink architecture (3) is maintained at the state of stopping rotating.
16. offset machine according to claim 15, wherein for realizing in lasting printing operation by the ink
The locking brake (40) that mechanism (3) is maintained at the state of stopping rotating acts on the planet gear transmission device (18)
Such a component in component (19-21):The gear unit (23) and the component (21) are coaxially disposed and anti-torsion
Connection.
17. offset machine according to claim 1, wherein in the flrst mode, the planet gear transmission device
(18) gear that a component (19) in component (17-21) passes through switch clutch (35) and wetting mechanism (4)
A gear (15) connection in (14-17), under the second mode, the component (17- of the planet gear transmission device (18)
21) another component (21) in is connected by the same gear (15) of another switch clutch (37) and wetting mechanism (14)
It connects.
Applications Claiming Priority (2)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
DE102014009205.4 | 2014-06-20 | ||
DE102014009205 | 2014-06-20 |
Publications (2)
Publication Number | Publication Date |
---|---|
CN105269926A CN105269926A (en) | 2016-01-27 |
CN105269926B true CN105269926B (en) | 2018-11-27 |
Family
ID=54768144
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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CN201510329864.2A Active CN105269926B (en) | 2014-06-20 | 2015-06-15 | Offset machine |
Country Status (3)
Country | Link |
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JP (1) | JP6429737B2 (en) |
CN (1) | CN105269926B (en) |
DE (1) | DE102015209521A1 (en) |
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DE102016205348A1 (en) * | 2016-03-31 | 2017-10-05 | Koenig & Bauer Ag | Drive arrangement for a sheet processing machine |
DE102016205345B4 (en) * | 2016-03-31 | 2019-04-25 | Koenig & Bauer Ag | Drive arrangement for a sheet processing machine |
DE102016205347B4 (en) * | 2016-03-31 | 2020-05-14 | Koenig & Bauer Ag | Plant for a sheet processing machine and a method for operating a drive arrangement |
DE102017215314A1 (en) * | 2016-10-05 | 2018-04-05 | Heidelberger Druckmaschinen Ag | Printing machine with a printing module of mutually adjustable submodules |
CN108215474B (en) * | 2017-12-29 | 2019-05-24 | 高斯图文印刷系统(中国)有限公司 | A kind of arrangement architecture of the ink system of business rotary offset machine |
DE102022129391A1 (en) * | 2022-11-08 | 2024-05-08 | Heidelberger Druckmaschinen Aktiengesellschaft | Control of a form roller of a printing press |
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JP2007062375A (en) * | 2005-08-30 | 2007-03-15 | Heidelberger Druckmas Ag | Drive mechanism for offset duplicator |
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- 2015-05-22 DE DE102015209521.5A patent/DE102015209521A1/en active Pending
- 2015-06-15 CN CN201510329864.2A patent/CN105269926B/en active Active
- 2015-06-19 JP JP2015123705A patent/JP6429737B2/en active Active
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CN2613371Y (en) * | 2003-01-14 | 2004-04-28 | 沈陈刚 | Plate position adjusting mechanism in operation for offset press |
DE102009001509A1 (en) * | 2009-03-12 | 2010-10-07 | Manroland Ag | Method for controlling processing machine for sheet material, involves driving inking unit and ink application roller with speed, and cleaning inking unit and application roller by activated inking cleaning devices |
CN202144134U (en) * | 2011-06-16 | 2012-02-15 | 江苏昌昇集团股份有限公司 | Alcohol dampening device of offset press |
Also Published As
Publication number | Publication date |
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JP2016007858A (en) | 2016-01-18 |
JP6429737B2 (en) | 2018-11-28 |
CN105269926A (en) | 2016-01-27 |
DE102015209521A1 (en) | 2015-12-24 |
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Effective date of registration: 20210713 Address after: Weisloch, Germany Patentee after: Heidelberg printing machinery Intellectual Property Co.,Ltd. Address before: Heidelberg, Germany Patentee before: Heidelberger Druckmaschinen AG |