The present invention relates to a pad printing machine defined in the preamble of claim 1.
The present invention furthermore relates to using an inverted planetary roller threaded drive to displace and position at least one displaceable sub-assembly of a pad printing machine.
Pad printing machines are known for instance from the patent documents EP 1 636 031 B1 and DE 10 2005 060 550 A1.
Electrically adjusting cylinders fitted with a planetary roller threaded drive are known for instance from the patent document EP 0 671 070 B1 (=DE 694 16 818 T2).
The objective of the present invention is to solve the problem of more accurately controlling the pad printing machine.
The invention solves this problem by the features of the independent claims. Preferred embodiment modes are defined in the dependent claims.
Accordingly the present invention concerns a pad printing machine comprising at least one displaceable sub-assembly configured displaceably relative to at least one second sub-assembly, further an electric, adjusting linear-actuator which is mechanically connected to the minimum of one displaceable first sub-assembly to drive it, characterized in that the electric, adjusting linear-actuator is fitted with an inverted planetary roller threaded drive.
Furthermore the present invention relates to the application of at least one linear adjusting actuator fitted with an inverted planetary roller threaded drive to move at least one displaceable first sub-assembly relative to at least one second sub-assembly of a pad printing machine.
The displaceable first sub-assembly illustratively my be a printing plate support, an ink cup support, a pad support, an object support holding an object to be/being printed, and/or a displaceable printing-unit carrier for one or two or more pad printing units.
The electric, adjusting linear-actuator (electric adjusting cylinder) containing the inverted planetary roller threaded drive offers the advantage over compressed air controls that the speeds and positions of displaceable components of the pad printing machine can be controlled accurately. Accurate time-dependent and/or path-dependent compressive forces may be set and holding durations for displaceable components can be defined. Moreover they may exert large forces while being very compact.
A control system driving the inverted planetary roller threaded drive may be hard programmed or preferably be optionally programmable. Also ink withdrawals and ink depositions may be programmed.
The present invention allows substantially improving, a least in part, printing quality.
The electric, adjusting linear-actuator (electric adjusting cylinder) of the present invention fitted with the inverted planetary roller threaded drive may replace totally pneumatic or hydraulic actuators heretofore required to attain similarly high forces in pad printing machines, however without incurring the drawbacks regarding maintenance or possible leakages of pneumatic or hydraulic actuators. Ordinarily hydraulic actuators may not be used with pad printing machines because of the danger of leakage. On the other hand the novel actuator of the present invention is applicable even to the so-called clean rooms.
Planetary roller threaded drives and their controls are known for instance from the patent document EP 0 671 070 B1 (=DE 694 16 818 T2).
The present invention is elucidated below in relation to the appended drawings of preferred illustrative embodiment modes.
The pad printing machine schematically shown in
An ink cup 16 is situated on the printing plate 8 and is kept stationary in a predetermined position by an ink cup support 18 and is shown in the ink receiving position of the printing plate 8 above at least one recess 20 in said plate 8, whereby ink contained in the ink cup 16 can enter the recess(es) 20. The minimum of one recess 20 is in the shape of the printed image (image or text) as yet to be printed.
The ink cup 16 remains in the position shown in
The second electric, adjusting linear-actuator 24 is mechanically connected on one hand to a pad support 23 of the pad 22 and on the other hand by a pad support 29 to the printing unit 6.
Thereupon the pad 22 can be by means of the second electric, adjusting linear-actuator 24 again as indicated by the same vertical arrows 26 respectively 27 down onto an object to be printed 30 and then back up in order to transfer the ink to the object being printed 30.
The object to be/being printed 30 is situated on an object carrier 32. This object carrier 32 may be configured to be stationary or be displaceable on an object base 34 by means of a third electric, adjusting linear-actuator 36 (electrical adjusting cylinder) between the printing position shown in
The further embodiment mode of a pad printing machine of the present invention shown in
The printing unit carrier 204 of
Identical/corresponding components shown in
At least one of electric, adjusting linear-actuators (electric adjusting cylinder) 12, 24, 36, 48, 60 and/or 62 contains an inverted planetary roller threaded drive and preferably also a computerized control associated with said drive which preferably is programmed/programmable to match predetermined pad printing procedures. Possible embodiment modes of such electric, adjusting linear-actuators fitted with a planetary roller threaded drive and with a corresponding control illustratively are known from the EP 0 671 070 B1 patent document and are briefly discussed below.
The electric, adjusting linear-actuator 312 schematically shown in
Several planetary rollers 326—which are fitted with an outer thread 327 matching the inner thread 322 of the inner pipe 320—are distributed around the inner circumference of the inner pipe 320 and engage the inner thread 322 of the inner pipe 320. The outer thread 327 of the planetary rollers 326 also engages the external, circumferential grooves 328 of a drive segment 330 fashioned at one end of a drive spindle 332. The drive segment 330 is part of the drive spindle 332 or irrotationally joined to it. The drive spindle 332 may be solid or tubular.
The outer circumferential grooves 328 of the drive segment 330 may consist of a threaded groove or of individual annular grooves.
The planetary rollers 326 may be kept apart from each other for instance by rings 334 and 336
When rotating the rotor 320/324 constituted by the inner pipe 320 and the permanent magnets 324, the planetary rollers 326 are axially moved relative to the said pipe 320 in its inside thread 322. In the process the planetary rollers 326 axially entrain the drive segment 330 and the drive spindle 332 connected to or integral with said drive segment, as a result of which the said drive spindle is axially displaced relative to the inside pipe 320 and hence also relative to the outer pipe 314.
The further electrical, adjusting linear-actuator 412 shown in
Number | Date | Country | Kind |
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10 2008 022 876.1 | May 2008 | DE | national |
Number | Date | Country | |
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Parent | 12933985 | Sep 2010 | US |
Child | 13866485 | US |