CN203864170U - Magnetic orienting device and manufacturing device of magnetic paint prints - Google Patents

Abstract

The utility model relates to the technical field of magnetic orienting printing, in particular to a magnetic orienting device and manufacturing device of magnetic paint prints. A first delivery mechanism comprises a first guide rail, a first vacuum suction disc set and a second vacuum suction disc set. The first vacuum suction disc set and the second vacuum suction disc set are arranged on the first guide rail in a sliding mode. The first vacuum suction disc set and the second vacuum suction disc set synchronously and horizontally move along the first guide rail and stretch out and draw back in the vertical direction, print substrates are adsorbed from a first paper receiving platform in an alternating mode and moved horizontally to a first fixed magnetic platform and a second fixed magnetic platform in an alternating mode, so that the first fixed magnetic platform and the second fixed magnetic platform can carry out magnetic orienting parallel operation on magnetic paint pieces in magnetic ink layers on the print substrates, and production efficiency is greatly improved.

Description

Magnetic orientation device and the manufacturing installation of magnetic paint printed matter

Technical field

The utility model relates to magnetic orientation printing technology, particularly relates to a kind of magnetic orientation device and manufacturing installation of magnetic paint printed matter.

Background technology

At present, magnetic ink is widely used in printing the various high-end field of anti-counterfeit technology such as paper money, bill, certificate, conventionally comprises and can carry out directed magnetic pigment flakes along magnetic direction, for example magnetic optically variable pigments sheet in magnetic ink.In the manufacture process of magnetic paint printed matter, need to use magnetic orientation device to form specific magnetic fields so that magnetic pigment flakes is carried out to magnetic orientation in the inside of magnetic ink, thereby in magnetic ink, produce the magnetic orientation pattern of effect unique.

For meeting market to having the great demand of magnetic paint printed matter of magnetic orientation pattern, magnetic orientation device simple in structure and that can carry out fast magnetic orientation becomes more and more to be needed badly.But, currently marketed magnetic orientation device only can be determined the enterprising line operate of magnetic recording level platform at one at every turn, cannot realize the parallel work-flow of determining to carry out on magnetic recording level platform magnetic orientation at two, cause the magnetic orientation device production efficiency of prior art low, cannot meet user and manufacturer's requirement.

Utility model content

Given this, technical problem to be solved in the utility model is to provide a kind of magnetic orientation device and manufacturing installation of magnetic paint printed matter, can be two parallel work-flows of determining to carry out on magnetic recording level platform magnetic orientation, and the simple in structure and production efficiency of magnetic orientation device is higher.

For solving the problems of the technologies described above, the technical scheme that the utility model adopts is: a kind of magnetic orientation device is provided, comprises: the first collection platform, for receiving the printed matter substrate that is printed with magnetic ink layer of being exported by printing machine; First determines magnetic recording level platform and second determines magnetic recording level platform, and first determines magnetic recording level platform and second determines magnetic recording level platform and be arranged at intervals at the first collection platform both sides along the first horizontal direction, carries out magnetic orientation for the magnetic pigment flakes of the magnetic ink layer on printed matter substrate; The first transmission mechanism, comprise along the first guide rail and the slip of the first horizontal direction setting and be arranged at the first vacuum cup group and the second vacuum cup group on the first guide rail, the first vacuum cup group and the second vacuum cup group are along the first guide rail synchronous translational, and vertically flexible up and down, alternately to adsorb printed matter substrate from the first collection platform, and printed matter substrate is alternately moved to first determine magnetic recording level platform and second and determine on magnetic recording level platform so that first determine magnetic recording level platform and second determine magnetic recording level platform can parallel work-flow.

Wherein, first determines magnetic recording level platform and second determines to be provided with on magnetic recording level platform multiple location block piece, and multiple location block piece is along the first orthogonal at least both direction setting of determining magnetic recording level platform and second and determining magnetic recording level platform, in order to printed matter substrate is positioned.

Wherein, in the time that the first vacuum cup group moves to the first collection platform top and adsorbs printed matter substrate, the second vacuum cup group moves to second and determines magnetic recording level platform top and discharge the printed matter substrate adsorbing; In the time that the second vacuum cup group moves to the first collection platform top and adsorbs printed matter substrate, the first vacuum cup group moves to first and determines magnetic recording level platform top and discharge the printed matter substrate adsorbing.

Wherein, magnetic orientation device further comprises: first solidifies platform and second solidifies platform, the first curing platform and second solidifies platform and arranges along the first horizontal direction interval, determine magnetic recording level platform and second through first and determine the printed matter substrate after magnetic recording level platform magnetic orientation for receiving respectively, and the magnetic ink layer on printed matter substrate is cured; The second collection platform, the second collection platform is arranged at intervals at first along the first horizontal direction and solidifies between platform and the second curing platform, and for receiving the first curing platform and the second printed matter substrate solidifying after platform is cured; The second transmission mechanism, the second transmission mechanism comprises along the second guide rail of the first horizontal direction setting and slip and is arranged at the 3rd vacuum cup group and the 4th vacuum cup group on the second guide rail, the 3rd vacuum cup group and the 4th vacuum cup group are along the second guide rail synchronous translational, and vertically flexible up and down, solidify platform absorption printed matter substrate alternately to solidify platform and second from first, and printed matter substrate is alternately moved on the second collection platform, so that the first curing platform and the second curing platform can parallel work-flows.

Wherein, in the time that the 3rd vacuum cup group moves to the first curing platform top and adsorbs printed matter substrate, the 4th vacuum cup group moves to the second collection platform top and discharges the printed matter substrate adsorbing; In the time that the 3rd vacuum cup group moves to the second collection platform top and discharges printed matter substrate, the 4th vacuum cup group moves to second and solidifies platform top and discharge the printed matter substrate adsorbing.

Wherein, first solidifies platform and first determines magnetic recording level platform along the second horizontal direction interval setting perpendicular to the first horizontal direction, magnetic orientation device further comprises the 3rd transmission mechanism, the 3rd transmission mechanism comprises along the 3rd guide rail of the second horizontal direction setting and slip and is arranged at the 5th vacuum cup group on the 3rd guide rail, the 5th vacuum cup group is along the 3rd guide rail translation, and vertically shrink up and down, adsorb printed matter substrate to determine magnetic recording level platform from first, and printed matter substrate is moved on the first curing platform.

Wherein, the second curing platform and second is determined magnetic recording level platform and is arranged along the second horizontal direction interval, magnetic orientation device further comprises the 4th transmission mechanism, the 4th transmission mechanism comprises along the 4th guide rail of the second horizontal direction setting and slip and is arranged at the 6th vacuum cup group on the 4th guide rail, the 6th vacuum cup group is along the 4th guide rail translation, and vertically shrink up and down, adsorb printed matter substrate to determine magnetic recording level platform from second, and printed matter substrate is moved on the second curing platform.

Wherein, the first collection platform and printing machine arrange along the second horizontal direction interval, magnetic orientation device further comprises the 5th transmission mechanism, the 5th transmission mechanism comprises along the 5th guide rail of the second horizontal direction setting and slip and is arranged at the 7th vacuum cup group on the 5th guide rail, the 7th vacuum cup group is along the 5th guide rail translation, and vertically shrink up and down, to adsorb printed matter substrate from printing machine, and printed matter substrate is moved on the first collection platform.

For solving the problems of the technologies described above, another technical scheme that the utility model adopts is: a kind of manufacturing installation of magnetic paint printed matter is provided, comprises printing machine and above-mentioned magnetic orientation device.

The beneficial effects of the utility model are: the situation that is different from prior art, the first transmission mechanism of the utility model design magnetic orientation device comprises that the first guide rail and slip are arranged at the first vacuum cup group and the second vacuum cup group on the first guide rail, by the first vacuum cup group and the second vacuum cup group along the first guide rail synchronous translational, and vertically flexible up and down, alternately adsorb printed matter substrate and alternately move to first from the first collection platform and determine magnetic recording level platform and second and determine on magnetic recording level platform, thereby make first to determine magnetic recording level platform and second and determine magnetic recording level platform and can carry out the parallel work-flow of magnetic orientation to the magnetic pigment flakes in the magnetic ink layer on printed matter substrate, production efficiency improves greatly.

Brief description of the drawings

Fig. 1 is the structural representation of the manufacturing installation preferred embodiment of the utility model magnetic paint printed matter;

Fig. 2 is the work schematic diagram of the preferred embodiment of the 5th transmission mechanism shown in Fig. 1;

Fig. 3 is the first work schematic diagram of the preferred embodiment of the first transmission mechanism shown in Fig. 1;

Fig. 4 is the second work schematic diagram of the preferred embodiment of the first transmission mechanism shown in Fig. 1;

Fig. 5 is the 3rd work schematic diagram of the preferred embodiment of the first transmission mechanism shown in Fig. 1;

Fig. 6 is the 4th work schematic diagram of the preferred embodiment of the first transmission mechanism shown in Fig. 1;

Fig. 7 is the 5th work schematic diagram of the preferred embodiment of the first transmission mechanism shown in Fig. 1;

Fig. 8 is the 6th work schematic diagram of the preferred embodiment of the first transmission mechanism shown in Fig. 1;

Fig. 9 is the 7th work schematic diagram of the preferred embodiment of the first transmission mechanism shown in Fig. 1;

Figure 10 is the 8th work schematic diagram of the preferred embodiment of the first transmission mechanism shown in Fig. 1;

Figure 11 is the 9th work schematic diagram of the preferred embodiment of the first transmission mechanism shown in Fig. 1;

Figure 12 is the tenth work schematic diagram of the preferred embodiment of the first transmission mechanism shown in Fig. 1;

Figure 13 is the 11 work schematic diagram of the preferred embodiment of the first transmission mechanism shown in Fig. 1;

Figure 14 is the flow chart of the manufacture method preferred embodiment of the utility model magnetic paint printed matter.

Detailed description of the invention

For making the purpose of this utility model, technical scheme and technique effect clearer, below in conjunction with accompanying drawing, embodiment of the present utility model is made to detailed description further.It should be noted that, the mentioned direction term arriving in the utility model description in full, such as up, down, left, right, before and after, horizontal or vertical etc., is only to coordinate accompanying drawing in order to explanation, is not used for limiting the utility model.

Fig. 1 is the structural representation of the manufacturing installation preferred embodiment of the utility model magnetic paint printed matter.Refer to shown in Fig. 1, the manufacturing installation of the present embodiment comprises printing machine 10 and magnetic orientation device 20.Wherein, preferably printing machine 10 is provided with printing station, in order to accommodate printed matter substrate 30 to be printed to assigned address, thereby be convenient to the follow-up magnetic ink layer that prints on the surface of printed matter substrate 30, magnetic orientation device 20 comprises the first collection platform 21, first determines magnetic recording level platform 22, second determines magnetic recording level platform 23, first solidifies platform 24, second solidifies platform 25 and the second collection platform 26, and for carry out the first transmission mechanism 31 of printed matter substrate 30 translations between each platform, the second transmission mechanism 32, the 3rd transmission mechanism 33, the 4th transmission mechanism 34 and the 5th transmission mechanism 35, each transmission mechanism is electrically connected with master control system, the control instruction issuing with reception master control system accordingly translation printed matter substrate 30.In the present embodiment:

The left and right sides that first determines magnetic recording level platform 22 and second determines magnetic recording level platform 23 and be arranged at intervals at along the first horizontal direction X the first collection platform 21.The first curing platform 24 and second solidifies platform 25 and arranges along the first horizontal direction X interval, and the first curing platform 24 and first is determined magnetic recording level platform 22 and is arranged along the second horizontal direction Y interval, the second curing platform 25 and second is determined magnetic recording level platform 23 and is arranged along the second horizontal direction Y interval, wherein the first horizontal direction X is mutually vertical with the second horizontal direction Y, i.e. horizontal direction shown in figure and vertical direction.The second collection platform 26 is arranged at intervals at first along the first horizontal direction X and solidifies between platform 24 and the second curing platform 25, and the first collection platform 21 arranges along the second horizontal direction Y interval with printing machine 10.

The 5th transmission mechanism 35 for carrying out the translation of printed matter substrate 30 between printing machine 10 and the first collection platform 21.The first transmission mechanism 31 determines to carry out between magnetic recording level platform 23 translation of printed matter substrate 30 for determining magnetic recording level platform 22, second at the first collection platform 21 and first.The 3rd transmission mechanism 33 solidifies for determining magnetic recording level platform 22 and first first the translation of carrying out printed matter substrate 30 between platform 24.The 4th transmission mechanism 34 solidifies for determining magnetic recording level platform 23 and second second the translation of carrying out printed matter substrate 30 between platform 25.The second transmission mechanism 32 is for solidifying first the translation of carrying out printed matter substrate 30 between platform 24, the second curing platform 25 and the second collection platform 26.Can, two parallel work-flows of determining to carry out on magnetic recording level platform magnetic orientation, introduce the structure of each transmission mechanism and the operation principle of manufacturing installation below based on the utility model:

First, refer to the work schematic diagram of the 5th transmission mechanism 35 preferred embodiments of the utility model shown in Fig. 2, the 5th transmission mechanism 35 comprises that the 5th guide rail 351 and the slip that arrange along the second horizontal direction Y are arranged at the 7th vacuum cup group 352 on the 5th guide rail 351, the 7th vacuum cup group 352 is provided with multiple sucker O, for the quantity that ensures the preferred sucker O of stability adsorbing is four.In manufacture process, in the time that printing machine 10 completes the printing process of the magnetic ink layer on printed matter substrate 30, the 7th vacuum cup group 352 is along the 5th guide rail 351 translations, and vertically shrink up and down by the suction nozzle of sucker O, with the printing station from printing machine 10() absorption printed matter substrate 30, then printed matter substrate 30 moved to the assigned address on the first collection platform 21 and discharge the printed matter substrate 30 adsorbing, so that the first collection platform 21 receives the printed matter substrate 30 that is printed with magnetic ink layer of being exported by printing machine 10.

Then, refer to the work schematic diagram of the utility model the first transmission mechanism 31 preferred embodiments shown in Fig. 3, the first transmission mechanism 31 comprises that the first guide rail 311 and the slip that arrange along the first horizontal direction X are arranged at the first vacuum cup group 312 and the second vacuum cup group 313 on the first guide rail 311, the first vacuum cup group 312 and the second vacuum cup group 313 are also respectively arranged with multiple sucker O, for the quantity that ensures the preferred sucker O of stability adsorbing is respectively four.In manufacture process, in the time that the 5th transmission mechanism 35 completes collection operation, the first vacuum cup group 312 and the second vacuum cup group 313 are along the first guide rail 311 synchronous translationals, and flexible up and down along the vertical direction shown in arrow in Fig. 3 by the suction nozzle of each self-absorption disc O, alternately to adsorb printed matter substrate 30 from the first collection platform 21, and printed matter substrate 30 is alternately moved to first determine magnetic recording level platform 22 and second and determine on magnetic recording level platform 23, so that first determines magnetic recording level platform 22 and second and determines magnetic recording level platform 23 and can carry out the parallel work-flow of magnetic orientation.Particularly:

Shown in Fig. 3～7, the first vacuum cup group 311 moves to the first collection platform 21 tops, and vertically stretch out absorption printed matter substrate 30 by the suction nozzle of its sucker O, then the suction nozzle of its sucker O vertically shrinks so that printed matter substrate 30 leaves the first collection platform 21.Then, printed matter substrate 30 is moved to the first top of determining magnetic recording level platform 22 by the first vacuum cup group 311, and printed matter substrate 30 is released into the first assigned address of determining magnetic recording level platform 22 by suction nozzle by its sucker O, to make first to determine magnetic recording level platform 22 magnetic pigment flakes in the magnetic ink layer on printed matter substrate 30 is carried out to magnetic orientation.Because the second vacuum cup group 313 and the first vacuum cup group 312 are along the first guide rail synchronizing moving, so time the second vacuum cup group 313 move to the first collection platform 21 tops (as shown in Figure 8).

Then, shown in Fig. 8～13, the second vacuum cup group 313 is vertically stretched out absorption printed matter substrate 30 by the suction nozzle of its sucker O, it should be noted that, shown in the printed matter substrate 30 shown in Fig. 8～13 and Fig. 3～Fig. 7 is not same.Then the suction nozzle of its sucker O vertically shrinks so that printed matter substrate 30 leaves the first collection platform 21.Then, printed matter substrate 30 is moved to the second top of determining magnetic recording level platform 23 by the second vacuum cup group 313, and vertically stretch out printed matter substrate 30 is released into the second assigned address of determining magnetic recording level platform 23 by the suction nozzle of its sucker O, to make second to determine magnetic recording level platform 23 magnetic pigment flakes in the magnetic ink layer on printed matter substrate 30 is carried out to magnetic orientation.

It should be noted that, for guaranteeing that printed matter substrate 30 is released into and forms assigned address corresponding to magnetic orientation pattern, preferably first determines magnetic recording level platform 22 and second and determines to be respectively arranged with on magnetic recording level platform 23 multiple location block piece 221, multiple location block piece 221 is along the first orthogonal at least both direction setting of determining magnetic recording level platform 22 and second and determining magnetic recording level platform 23, in order to printed matter substrate 30 is positioned, wherein at least both direction is corresponding respectively parallels with the first horizontal direction X and the second horizontal direction Y, i.e. the adjacent both sides of rectangle.

Based on foregoing description, known in the time that the first vacuum cup group 312 moves to the first collection platform 21 tops and adsorbs printed matter substrate 30, the second vacuum cup group 313 moves to second and determines magnetic recording level platform 23 tops and discharge the printed matter substrate 30 adsorbing; In the time that the second vacuum cup group 313 moves to the first collection platform 21 tops and adsorbs printed matter substrate 30, the first vacuum cup group 312 moves to first and determines magnetic recording level platform 22 tops and discharge the printed matter substrate 30 adsorbing.The simultaneously synchronizing moving along the first guide rail in conjunction with the first vacuum cup group 312 and the second vacuum cup group 313, the present embodiment can be realized first and determine magnetic recording level platform 22 and second and determine magnetic recording level platform 23 magnetic pigment flakes in the magnetic ink layer on printed matter substrate 30 is carried out to the parallel work-flow of magnetic orientation.

Determine magnetic recording level platform 22 and second and determine magnetic recording level platform 23 and carry out magnetic orientation for the magnetic pigment flakes of the magnetic ink layer on printed matter substrate 30 due to first, therefore in order to ensure the in real time monitoring to magnetic orientation effect, the present embodiment preferably first is determined magnetic recording level platform 22 and second and is determined magnetic recording level platform 23 and be provided with magnetic orientation imaging mechanism 231 at its assigned address respectively.

Follow, the 3rd transmission mechanism 33 is determined magnetic recording level platform 22 and first first and is solidified the translation of carrying out printed matter substrate 30 between platform 24 again.The 3rd transmission mechanism 33 of the present embodiment comprises that the 3rd guide rail (not shown) and the slip that arrange along the second horizontal direction Y are arranged at the 5th vacuum cup group on the 3rd guide rail, and the structure of the 5th vacuum cup group is identical with the structure of the 7th vacuum cup group 352 shown in Fig. 2.In manufacture process, in the time that first determines magnetic recording level platform 22 and completes the magnetic orientation operation to the magnetic pigment flakes in the magnetic ink layer on printed matter substrate 30, the 5th vacuum cup group is along the 3rd guide rail translation, and vertically shrink up and down by the suction nozzle of its sucker, determine magnetic recording level platform 22 from first and adsorb printed matter substrate 30, then printed matter substrate 30 is moved to first and solidify on platform 24.The present embodiment preferably the 5th vacuum cup group moves to printed matter substrate 30 on transport tape 331, be sent to first and solidify platform 24 and the magnetic ink layer on printed matter substrate 30 is cured determining printed matter substrate 30 after magnetic recording level platform 22 magnetic orientations through first by transport tape 331, to complete curing process.

Meanwhile, the 4th transmission mechanism 34 is determined magnetic recording level platform 23 and second second and is solidified the translation of carrying out printed matter substrate 30 between platform 25.The 4th transmission mechanism 34 of the present embodiment comprises that the 4th guide rail and the slip that arrange along the second horizontal direction Y are arranged at the 6th vacuum cup group on the 4th guide rail, and the structure of the 6th vacuum cup group is identical with the structure of the 7th vacuum cup group 352 shown in Fig. 2.In manufacture process, in the time that second determines magnetic recording level platform 23 and completes the magnetic orientation operation to the magnetic pigment flakes in the magnetic ink layer on printed matter substrate 30, the 6th vacuum cup group is along the 4th guide rail translation, and vertically shrink up and down by the suction nozzle of its sucker, determine magnetic recording level platform 23 from second and adsorb printed matter substrate 30, then printed matter substrate 30 is moved to second and solidify on platform 25.The present embodiment preferably the 6th vacuum cup group moves to printed matter substrate 30 on transport tape 332, be sent to second and solidify platform 25 and the magnetic ink layer on printed matter substrate 30 is cured determining printed matter substrate 30 after magnetic recording level platform 23 magnetic orientations through second by transport tape 332, to complete curing process.

Further, the second transmission mechanism 32 is for solidifying first the translation of carrying out printed matter substrate 30 between platform 24, the second curing platform 25 and the second collection platform 26.Second transmission mechanism 32 of the present embodiment comprises that the second guide rail and the slip that arrange along the first horizontal direction X are arranged at the 3rd vacuum cup group and the 4th vacuum cup group on the second guide rail, the structure of the 3rd vacuum cup group and the 4th vacuum cup group is identical with the structure of the 7th vacuum cup group 352 shown in Fig. 2, be respectively arranged with multiple suckers, for the quantity that ensures the preferred sucker of stability adsorbing is respectively four.In manufacture process, in the time that the 3rd transmission mechanism 33 and the 4th transmission mechanism 34 complete curing process, the 3rd vacuum cup group and the 4th vacuum cup group are along the second guide rail synchronous translational, and vertically flexible up and down by the suction nozzle of each self-absorption disc, adsorb printed matter substrate 30 alternately to solidify platform 25 from the first curing platform 24 and second, and printed matter substrate 30 is alternately moved on the second collection platform 26, hence one can see that: in printing process, in the time that the 3rd vacuum cup group moves to the first curing platform 24 tops and adsorbs printed matter substrate 30, the 4th vacuum cup group moves to the second collection platform 26 tops and discharges the printed matter substrate 30 adsorbing, in the time that the 3rd vacuum cup group moves to the second collection platform 26 tops and discharges printed matter substrate 30, the 4th vacuum cup group moves to second solidifies platform 25 tops and discharges the printed matter substrate 30 adsorbing, and making the first curing platform 24 and second solidify platform 25 with this can parallel work-flow.Shown in the specific works process of second transmission mechanism 32 of the present embodiment and principle and Fig. 3～13, the 5th transmission mechanism 35 is similar, repeats no more herein.

Finally, the second collection platform 26 receives the first curing platform 24 and the second printed matter substrate 30 solidifying after platform 25 is cured by the second transmission mechanism 32, to complete the manufacture of magnetic paint printed matter.

In above-mentioned embodiment provided by the utility model, should be understood that, position relationship shown in concrete structure and the figure of disclosed each transmission mechanism is only schematic, in practical application scene, can also have other set-up modes, for example first determines magnetic recording level platform 22 and second and determines magnetic recording level platform 23, first and solidify platform 24 and second and solidify platform 25 and do not adopt the symmetry respectively shown in Fig. 1 to be arranged at intervals at first collection platform 21(the second collection platform 26) both sides; Each transmission mechanism is provided with Vision imaging system a suctorial side is set, in order to translation process is carried out to Real-Time Monitoring.

In sum, the purpose of this utility model is on the basis of existing technology, the first transmission mechanism 31 of design magnetic orientation device 20 comprises that the first guide rail 311 and slip are arranged at the first vacuum cup group 312 and the second vacuum cup group 313 on the first guide rail 311, by the first vacuum cup group 312 and the second vacuum cup group 313 along the first guide rail 311 synchronous translationals, and vertically flexible up and down by the suction nozzle of each self-absorption disc O, alternately adsorb printed matter substrate 30 and alternately move to first from the first collection platform 21 and determine magnetic recording level platform 22 and second and determine on magnetic recording level platform 23, thereby make first to determine magnetic recording level platform 22 and second and determine magnetic recording level platform 23 and can carry out the parallel work-flow of magnetic orientation to the magnetic pigment flakes in the magnetic ink layer on printed matter substrate 30.

Further, the second transmission mechanism 32 of design magnetic orientation device 20 comprises that the second guide rail and slip are arranged at the 3rd vacuum cup group and the 4th vacuum cup group on the second guide rail, by the 3rd vacuum cup group and the 4th vacuum cup group along the second guide rail synchronous translational, and vertically flexible up and down by the suction nozzle of each self-absorption disc, alternately solidifying platform 25 from the first curing platform 24 and second adsorbs printed matter substrate 30 and alternately moves on the second collection platform 26, thereby make the first curing platform 24 and second solidify the parallel work-flow that platform 25 can be cured the magnetic ink layer on printed matter substrate 30, be compared in prior art and only can determine to carry out carrying out curing operation on magnetic orientation operation and a curing platform on magnetic recording level platform at one at every turn, production efficiency of the present utility model improves greatly, can better meet manufacturer and the market great demand to magnetic paint printed matter, and the structure of device is also fairly simple.

The utility model also provides a kind of manufacture method of magnetic paint printed matter, based on the manufacturing installation shown in Fig. 1～13, refers to shown in Figure 14, and the manufacture method of the present embodiment comprises:

Step S141: the first collection platform 21 receives the printed matter substrate 30 that is printed with magnetic ink layer of being exported by printing machine 10.

Step S142: the first vacuum cup group 312 and the second vacuum cup group 313 are along the first guide rail 311 synchronous translationals, and vertically flexible up and down, alternately to adsorb printed matter substrate 30 from the first collection platform 21, and printed matter substrate 30 is alternately moved to first determine magnetic recording level platform 22 and second and determine on magnetic recording level platform 23.

Step S143: first determines magnetic recording level platform 22 and second determines 23 parallel work-flows of magnetic recording level platform, carries out magnetic orientation with the magnetic pigment flakes in the magnetic ink layer on printed matter substrate 30.

Step S144: the 3rd vacuum cup group and the 4th vacuum cup group are along the second guide rail synchronous translational, and vertically flexible up and down, adsorb printed matter substrate 30 alternately to solidify platform 25 from the first curing platform 24 and second, and printed matter substrate 30 is alternately moved on the second collection platform 26.

The manufacture method of the magnetic paint printed matter of the present embodiment is due to the manufacturing installation based on shown in Fig. 1～13, and therefore it has the beneficial effect identical with above-mentioned manufacturing installation.

The foregoing is only embodiment of the present utility model; not thereby limit the scope of the claims of the present utility model; every equivalent structure or conversion of equivalent flow process that utilizes the utility model description and accompanying drawing content to do; for example the mutually combining of technical characterictic between each embodiment; or be directly or indirectly used in other relevant technical fields, be all in like manner included in scope of patent protection of the present utility model.

Claims (9)

1. a magnetic orientation device, is characterized in that, described magnetic orientation device comprises:

The first collection platform, described the first collection platform is for receiving the printed matter substrate that is printed with magnetic ink layer of being exported by printing machine;

First determines magnetic recording level platform and second determines magnetic recording level platform, the both sides that described first determines magnetic recording level platform and described second determines magnetic recording level platform and be arranged at intervals at along the first horizontal direction described the first collection platform, carry out magnetic orientation for the magnetic pigment flakes of the magnetic ink layer on described printed matter substrate;

The first transmission mechanism, comprise along the first guide rail and the slip of described the first horizontal direction setting and be arranged at the first vacuum cup group and the second vacuum cup group on described the first guide rail, described the first vacuum cup group and described the second vacuum cup group are along described the first guide rail synchronous translational, and vertically flexible up and down, alternately to adsorb described printed matter substrate from described the first collection platform, and described printed matter substrate is alternately moved to described first determine magnetic recording level platform and described second and determine on magnetic recording level platform, so that described first determine magnetic recording level platform and described second determine magnetic recording level platform can parallel work-flow.

2. magnetic orientation device according to claim 1, it is characterized in that, described first determines magnetic recording level platform and described second determines to be provided with on magnetic recording level platform multiple location block piece, described multiple location block piece is along the described first orthogonal at least both direction setting of determining magnetic recording level platform and described second and determining magnetic recording level platform, in order to described printed matter substrate is positioned.

3. magnetic orientation device according to claim 1, it is characterized in that, in the time that described the first vacuum cup group moves to described the first collection platform top and adsorbs described printed matter substrate, described the second vacuum cup group moves to described second and determines magnetic recording level platform top and discharge the described printed matter substrate adsorbing; In the time that described the second vacuum cup group moves to described the first collection platform top and adsorbs described printed matter substrate, described the first vacuum cup group moves to described first and determines magnetic recording level platform top and discharge the described printed matter substrate adsorbing.

4. magnetic orientation device according to claim 1, is characterized in that, described magnetic orientation device further comprises:

First solidifies platform and second solidifies platform, described first solidifies platform and described second solidifies platform along described the first horizontal direction interval setting, determine magnetic recording level platform and described second through described first and determine the described printed matter substrate after magnetic recording level platform magnetic orientation for receiving respectively, and the magnetic ink layer on described printed matter substrate is cured;

The second collection platform, described the second collection platform is arranged at intervals at described first along described the first horizontal direction and solidifies between platform and the described second curing platform, and for receiving the described first curing platform and the described second described printed matter substrate solidifying after platform is cured;

The second transmission mechanism, comprise along the second guide rail and the slip of described the first horizontal direction setting and be arranged at the 3rd vacuum cup group and the 4th vacuum cup group on described the second guide rail, described the 3rd vacuum cup group and described the 4th vacuum cup group are along described the second guide rail synchronous translational, and vertically flexible up and down, adsorb described printed matter substrate alternately to solidify platform from the described first curing platform and described second, and described printed matter substrate is alternately moved on described the second collection platform, so that the described first curing platform and the described second curing platform can parallel work-flows.

5. magnetic orientation device according to claim 4, it is characterized in that, in the time that described the 3rd vacuum cup group moves to the described first curing platform top and adsorbs described printed matter substrate, described the 4th vacuum cup group moves to described the second collection platform top and discharges the described printed matter substrate adsorbing; In the time that described the 3rd vacuum cup group moves to described the second collection platform top and discharges described printed matter substrate, described the 4th vacuum cup group moves to described second and solidifies platform top and discharge the described printed matter substrate adsorbing.

6. magnetic orientation device according to claim 4, it is characterized in that, described first solidifies platform and described first determines magnetic recording level platform along the second horizontal direction interval setting perpendicular to described the first horizontal direction, described magnetic orientation device further comprises the 3rd transmission mechanism, described the 3rd transmission mechanism comprises along the 3rd guide rail of described the second horizontal direction setting and slip and is arranged at the 5th vacuum cup group on described the 3rd guide rail, described the 5th vacuum cup group is along described the 3rd guide rail translation, and vertically shrink up and down, adsorb described printed matter substrate to determine magnetic recording level platform from described first, and described printed matter substrate is moved on the described first curing platform.

7. magnetic orientation device according to claim 6, it is characterized in that, described second solidifies platform and described second determines magnetic recording level platform along described the second horizontal direction interval setting, described magnetic orientation device further comprises the 4th transmission mechanism, described the 4th transmission mechanism comprises along the 4th guide rail of described the second horizontal direction setting and slip and is arranged at the 6th vacuum cup group on described the 4th guide rail, described the 6th vacuum cup group is along described the 4th guide rail translation, and vertically shrink up and down, adsorb described printed matter substrate to determine magnetic recording level platform from described second, and described printed matter substrate is moved on the described second curing platform.

8. magnetic orientation device according to claim 7, it is characterized in that, described the first collection platform and described printing machine arrange along described the second horizontal direction interval, described magnetic orientation device further comprises the 5th transmission mechanism, described the 5th transmission mechanism comprises along the 5th guide rail of described the second horizontal direction setting and slip and is arranged at the 7th vacuum cup group on described the 5th guide rail, described the 7th vacuum cup group is along described the 5th guide rail translation, and vertically shrink up and down, to adsorb described printed matter substrate from described printing machine, and described printed matter substrate is moved on described the first collection platform.

9. a manufacturing installation for magnetic paint printed matter, is characterized in that, described manufacturing installation comprises the magnetic orientation device described in printing machine and claim 1～8 any one.