CN102476502B - Numerical pressure-controllable gold blocking die cutting platform - Google Patents
Numerical pressure-controllable gold blocking die cutting platform Download PDFInfo
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- CN102476502B CN102476502B CN201010564996.0A CN201010564996A CN102476502B CN 102476502 B CN102476502 B CN 102476502B CN 201010564996 A CN201010564996 A CN 201010564996A CN 102476502 B CN102476502 B CN 102476502B
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- die cutting
- pressure
- controllable
- moving platform
- blocking die
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Abstract
The invention provides a numerical pressure-controllable gold blocking die cutting platform which comprises a moving platform, an oscillation bar component, a guide system, a linear device, a constant-pressure device, a base and an external digital controller, wherein the linear device reciprocates in the horizontal direction; the oscillation bar component is connected with the linear device and swings left and right in a vertical plane so that the moving platform reciprocates in a vertical direction along the guide system; and when the moving platform moves toward the high point of the reciprocation and approaches to the high point, the constant-pressure device below the oscillation bar component moves downwards and keeps constant pressure. Compared with the prior art, the number of mechanical parts is reduced, and the material cost and manufacturing cost are lowered through the invention; and due to the addition of the constant-pressure device, the service life and operation efficiency of equipment are remarkably improved.
Description
[technical field]
The invention belongs to printing equipment technical field, is a kind of numerical pressure-controllable gold blocking die cutting platform.
[background technology]
In known technology, traditional platen gold-stamping die-cutting machine platform is crank connecting link swing rod structure or cam link swing rod structure 3A, 3B, 4, 5 (please refer to the drawing 17 is to Figure 19), these two kinds of complex structures, part is more, part processing precision requires that high to cut difficulty of processing large, the maintenance load of parts is large, crank or cam 4 make fork variable angle large, bent axle or camshaft 4 running one-period platforms only complete compression motion (as Figure 17 to Figure 19 illustrates one-period course of action), efficiency is lower, and traditional platform due to the reason of self structure make moving platform 2 at height point place, not have the proper time to stop or the time of staying extremely short, the time of staying is also non-adjustable, and can only change moving platform 2 relative positions and extend the time of staying by stretching body completely in order to add long residence time, and pressure is often difficult to control, the wearing and tearing of each parts are also very serious, very large to mechanical impact, easily affect the service life of equipment.
Given this, necessaryly provide a kind of new numerical pressure-controllable gold blocking die cutting platform to solve the problems referred to above.
[summary of the invention]
Technical problem solved by the invention is to provide a kind of numerical pressure-controllable gold blocking die cutting platform, and it simplifies frame for movement, and operating efficiency is higher, and the time of staying is adjustable, and pressure is controlled.
For solving the problems of the technologies described above, the present invention adopts following technical scheme: a kind of numerical pressure-controllable gold blocking die cutting platform, comprise moving platform, oscillating bar assembly, guidance system, linear unit, constant-voltage equipment, base and external digital controller, described linear unit moves reciprocatingly in the horizontal direction, described oscillating bar assembly is connected and swings in perpendicular with described linear unit, moving platform is moved reciprocatingly along guidance system in the vertical direction, described in when described moving platform is mobile to reciprocating high point, the constant-voltage equipment of oscillating bar assembly below moves down and keeps constant voltage.
Further, described linear unit completes twice pressurization to described moving platform in a reciprocation period.
Further, after described moving platform arrives high point, described linear unit moves on and promotes oscillating bar assembly, when described linear unit moves to final position described in moving platform in the vertical direction arrive reciprocating low spot.
Further, described moving platform moves to while approaching high point, and the constant-voltage equipment of described oscillating bar assembly below is made upper and lower micro-adjustment movement according to pressure size.
Further, described constant-voltage equipment can be comprised of or controllable pressure system forms or controlled servo-drive system forms or controlled gas-liquid systems forms controlled hydraulic system.
Further, described linear unit can be comprised of or controllable pressure system forms or controlled servo-drive system forms or controlled gas-liquid systems forms controlled hydraulic system.
Further, described numerical pressure-controllable gold blocking die cutting platform comprises even number linear unit, and described even number linear unit is motion or relative motion in the same way each other.
Further, described numerical pressure-controllable gold blocking die cutting platform at least comprises an oscillating bar assembly.
Further, described oscillating bar assembly comprises interconnective upper and lower fork or single wobbling pole.
Compared to prior art, numerical pressure-controllable gold blocking die cutting platform of the present invention greatly reduced component of machine quantity, reduced material cost and manufacturing cost, add after constant-voltage equipment, also increased substantially service life of equipment, pressure is controlled effectively, reduce parts wear, this platform has not only improved the platform speed of service greatly, and the dwell time such as can change at any time at the advantage.
[accompanying drawing explanation]
Fig. 1 is the structural representation of the first embodiment of numerical pressure-controllable gold blocking die cutting platform of the present invention.
Fig. 2 to Fig. 7 is the motion state schematic diagram of the numerical pressure-controllable gold blocking die cutting platform shown in Fig. 1.
Fig. 8 to Figure 11 is the motion state schematic diagram of the second embodiment of numerical pressure-controllable gold blocking die cutting platform of the present invention.
Figure 12 to Figure 13 is the simplified diagram under two kinds of motion states of the 3rd embodiment of numerical pressure-controllable gold blocking die cutting platform of the present invention.
Figure 14 to Figure 16 is the simplified diagram under two kinds of motion states of the 4th embodiment of numerical pressure-controllable gold blocking die cutting platform of the present invention.
Figure 17 to Figure 19 is the simplified diagram under the various motion states of traditional platen gold-stamping die-cutting machine platform in prior art.
[specific embodiment]
Refer to shown in Fig. 1 to Fig. 7, for the first embodiment of a kind of numerical pressure-controllable gold blocking die cutting platform provided by the invention, this numerical pressure-controllable gold blocking die cutting platform comprises moving platform 1, guidance system 2, the oscillating bar assembly 3 being connected with described moving platform 1, the linear unit 4 being connected with described oscillating bar assembly 3, the constant-voltage equipment 5 that is positioned at described linear unit 4 belows, be positioned at the base 6 of described constant-voltage equipment 5 belows and connect the external digital controller 7 of described linear unit 4.Described oscillating bar assembly 3 two ends coordinate with described moving platform 1 and linear unit 4 pivot joints respectively, and oscillating bar assembly 3 can be moved pivotally with respect to described moving platform 1 and linear unit 4 around junction respectively.Described linear unit 4 can be comprised of or controllable pressure system forms or controlled servo-drive system forms or controlled gas-liquid systems forms controlled hydraulic system.Described constant-voltage equipment 5 can be comprised of or controllable pressure system forms or controlled servo-drive system forms or controlled gas-liquid systems forms controlled hydraulic system.
Please refer to shown in Fig. 2 to Fig. 4, described linear unit 4 starts to open horizontal movement to the right by starting point (being high order end), the angle that connected oscillating bar assembly 3 and linear unit are 4 increases (being oscillating bar assembly 3 counter-clockwise swings), in this process, described moving platform 1 is vertically done ascending motion (shown in ginseng Fig. 2) under the assistance of guidance system 2, by low spot, drive towards high point, when described moving platform 1 moves to approaching high point, the constant-voltage equipment 5 of described oscillating bar assembly 3 belows starts slowly to move and keep constant voltage downwards, and when described moving platform 1 continues rise and arrive peak (referring to shown in Fig. 3), described linear unit 4 moves right and promotes oscillating bar assembly 3 by continuation level and continues counter-clockwise swing, 4 angles of described oscillating bar assembly 3 and linear unit continue to increase, as shown in Figure 4, now, moving platform 1 will start to decline, and described in when described linear unit 4 is reached home (while being moved to low order end), moving platform 1 arrives low spot, moving platform 1 completes one-period motion, the constant-voltage equipment 5 of described oscillating bar assembly 3 belows starts upwards slowly mobile until to finely tuning terminal and keeping constant voltage, constant-voltage equipment 5 plays constant voltage effect like this, extended again the time of staying of moving platform 1 at height point.
Refer to shown in Fig. 5 to Fig. 7, linear unit 4 is by right beginning horizontal movement left, and 4 angles of described oscillating bar assembly 3 and linear unit reduce (being that described oscillating bar assembly 3 is done clockwise swing), and moving platform 1 is vertically done ascending motion along guidance system 2.By moving platform 1, from low spot to height point, moved (as Fig. 5 illustrates), when moving to the constant-voltage equipment 5 of oscillating bar assembly 3 belows while approaching high point, described moving platform 1 starts slowly to move and keep constant voltage downwards, moving platform 1 arrive after high point described linear unit 4 continuation levels to left movement to promote oscillating bar assembly 3, as shown in Figure 6, the constant-voltage equipment 5 of described oscillating bar assembly 3 belows starts upwards slowly mobile until to finely tuning terminal and keeping constant voltage, constant-voltage equipment 5 plays constant voltage effect like this, extended again the time of staying of moving platform 1 at height point, described linear unit 4 continuation levels are to left movement and promote oscillating bar assembly 3, the angle that described oscillating bar assembly 3 and linear unit are 4 continues to reduce (being that oscillating bar assembly 3 swings clockwise), make moving platform 1 drive towards low spot by height point, after linear unit 4 moves to start position (being moved to high order end) left, moving platform 1 arrives low spot, so, described moving platform 1 completes one-period motion again, linear unit 4 completes in the horizontal direction once to move back and forth described moving platform 1 is realized to compression motion twice like this.
The main feature of numerical pressure-controllable gold blocking die cutting platform of the present invention is under the effect of the externally external command of digital controller 7; thereby utilizing linear unit 4 promotion oscillating bar assemblies 3 that fork angle is changed makes moving platform 1 move up and down along guide direction; when moving platform 1 moves to approaching high point, the constant-voltage equipment 5 of fork below starts to move and realize two functions: 1, comparatively stable pressure is provided, can effectively protects machinery.2, extend the dwell time of moving platform at height point, made linear unit 4 to moving platform, complete compression motion twice in a reciprocation period, improved the efficiency of platform.Compare with traditional platform, numerical pressure-controllable gold blocking die cutting platform of the present invention component of machine used has reduced approximately 40%, material cost and manufacturing cost have nearly also reduced by 30%, and can increase substantially service life of equipment, also greatly improved the platform speed of service, and can change at any time the dwell time.
In the second embodiment, as shown in Figs. 8 to 11, described linear unit 4 also can adopt two freestanding mechanisms, it coordinates with oscillating bar assembly 3 pivotables respectively, and can along contrary direction, move separately, these two linear units 4 can be drawn close motion in the opposite direction mutually, also can, along contrary direction mutually away from moving, so realize the reciprocating motion of moving platform 1 in the vertical direction.
In the 3rd embodiment, as shown in Figure 12 to Figure 13, numerical pressure-controllable gold blocking die cutting platform in present embodiment adopts double swing-bar linear system, it comprises two independently linear units 4, this linear unit 4 is connected with upper and lower fork 3A, 3B, and do horizontal reciprocating movement along identical direction, with this, moving platform 1 is moved back and forth in vertical direction.
In the 4th embodiment, as shown in Figure 14 to Figure 16, numerical pressure-controllable gold blocking die cutting platform in present embodiment adopts double swing-bar linear system equally, different from last embodiment is, two linear units 4 of present embodiment do relative motion all the time in the opposite direction, realize moving platform 1 move back and forth in vertical direction with this.
Though the above second to the 4th embodiment structure is different, it is consistent with the first embodiment that it does principle, and technological means and technique effect are identical in essence, and Figure 12 to Figure 16 is only rough schematic, does not repeat them here.
The above, be only most preferred embodiment of the present invention, not the present invention done to any pro forma restriction, within all belonging to the scope of technical solution of the present invention.Any those of ordinary skill in the art, are not departing from technical solution of the present invention scope situation, utilize the method content of above-mentioned announcement to make many possible changes and modification to technical solution of the present invention, all belong to the scope of claims protection.
Claims (8)
1. a numerical pressure-controllable gold blocking die cutting platform, comprise moving platform, oscillating bar assembly, guidance system, linear unit, constant-voltage equipment, base and external digital controller, it is characterized in that: described linear unit moves reciprocatingly in the horizontal direction, described oscillating bar assembly is connected and swings in perpendicular with described linear unit, moving platform is moved reciprocatingly along guidance system in the vertical direction, when described moving platform is mobile to reciprocating high point described in the constant-voltage equipment of oscillating bar assembly below move down and keep constant voltage; Described linear unit completes twice pressurization to described moving platform in a reciprocation period.
2. numerical pressure-controllable gold blocking die cutting platform according to claim 1, it is characterized in that: after described moving platform arrives high point, described linear unit moves on and promotes oscillating bar assembly, when described linear unit moves to final position described in moving platform in the vertical direction arrive reciprocating low spot.
3. numerical pressure-controllable gold blocking die cutting platform according to claim 2, is characterized in that: described moving platform moves to while approaching high point, and the constant-voltage equipment of described oscillating bar assembly below is made upper and lower micro-adjustment movement according to pressure size.
4. numerical pressure-controllable gold blocking die cutting platform according to claim 3, is characterized in that: described constant-voltage equipment can be comprised of or controllable pressure system forms or controlled servo-drive system forms or controlled gas-liquid systems forms controlled hydraulic system.
5. numerical pressure-controllable gold blocking die cutting platform according to claim 4, is characterized in that: described linear unit can be comprised of or controllable pressure system forms or controlled servo-drive system forms or controlled gas-liquid systems forms controlled hydraulic system.
6. numerical pressure-controllable gold blocking die cutting platform according to claim 5, is characterized in that: described numerical pressure-controllable gold blocking die cutting platform comprises two linear units, and described two linear units are motion or relative motion in the same way each other.
7. numerical pressure-controllable gold blocking die cutting platform according to claim 6, is characterized in that: described numerical pressure-controllable gold blocking die cutting platform at least comprises two oscillating bar assemblies.
8. numerical pressure-controllable gold blocking die cutting platform according to claim 7, is characterized in that: described oscillating bar assembly comprises interconnective upper and lower fork.
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CN201010564996.0A CN102476502B (en) | 2010-11-30 | 2010-11-30 | Numerical pressure-controllable gold blocking die cutting platform |
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CN201010564996.0A CN102476502B (en) | 2010-11-30 | 2010-11-30 | Numerical pressure-controllable gold blocking die cutting platform |
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CN102476502B true CN102476502B (en) | 2014-03-19 |
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CN102350864A (en) * | 2011-08-12 | 2012-02-15 | 河北玉田兴业印刷机械有限公司 | Digitalized pressure-controllable gold stamping and die cutting platform |
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ES2232258B1 (en) * | 2002-11-28 | 2006-07-16 | Cimco, S.L. | ROTARY TROQUELADORA. |
DE502006004008D1 (en) * | 2006-08-29 | 2009-07-30 | Buerkle Gmbh Robert | Press and method for laminating plate-shaped workpieces by means of pressure and heat |
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AU4701772A (en) * | 1971-09-21 | 1974-03-28 | DESMOND McNALLY LESLIE PETER STUART WILSON HERBERT | Improvements in or relating to cattle grids |
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CN1727185A (en) * | 2004-07-31 | 2006-02-01 | 江敦景 | Hydraulic gold stamping machine |
CN101112799A (en) * | 2006-07-26 | 2008-01-30 | 海德堡印刷机械股份公司 | Cutting and creasing press for sheet material |
CN201089003Y (en) * | 2007-10-14 | 2008-07-23 | 申娟 | Dual-arm pendulum bar type die-assembling height regulating and stuffy machine releasing device |
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