CN201559348U

CN201559348U - Cold foil printing equipment

Info

Publication number: CN201559348U
Application number: CN2009201783569U
Authority: CN
Inventors: 吕伟
Original assignee: Shenzhen Jinjia Color Printing Group Co., Ltd.
Current assignee: Shenzhen Jinjia Color Printing Group Co., Ltd.
Priority date: 2009-11-13
Filing date: 2009-11-13
Publication date: 2010-08-25
Anticipated expiration: 2019-11-13

Abstract

The utility model provides a cold foil printing equipment comprising a print material feed mechanism and a print material receiving mechanism. A first print material conveying mechanism, a coating mechanism, a second print material conveying mechanism, a press mechanism, a solidifying mechanism and a third print material conveying mechanism are orderly arranged between the print material feed mechanism and the print material receiving mechanism. A thermoprint foil unwinding mechanism is arranged above the second print material conveying mechanism, and a thermoprint foil winding mechanism is arranged above the third print material conveying mechanism. The press mechanism comprises an embossed print roller and a transfer roller, the thermoprint foil unwinding mechanism comprises an unwinding roller and an unwinding roller shaft, and the thermoprint foil winding mechanism comprises a winding roller and a winding roller shaft. A tension roller and a drawing roller are arranged between the embossed print roller, the unwinding roller and the winding roller. The embossed print roller is controlled by a leapfrog clutch, the drawing roller, the unwinding roller and the winding roller are driven by a servo motor, and the servo motor is controlled by an electronic leapfrog control system. The utility model can reduce thermoprint foil waste to the utmost extend.

Description

A kind of cold foil printing equipment

Technical field

The utility model relates to print field, relates in particular to a kind of cold foil printing equipment.

Background technology

Thermoprint is a kind of common surface decorating method, is used to strengthen the visual effect of products such as label, carton, trade mark.The thermoprint mode mainly comprises two kinds on blanching seal and cold wave seal.The blanching seal is to utilize the metal printing plate by heating, pressing mode stamping systems to be transferred to the printable fabric surface.The cold wave seal utilizes ultraviolet curing gloss oil (also claiming the UV gloss oil) that stamping systems is transferred to the printable fabric surface usually.Compare the blanching seal, the power consumption of cold wave seal is low, equipment investment is few, the plate-making cost is low, production efficiency is high.

At present, most cold foil printing equipment is " platen " type (printing plate and make-ready all are the plane) on the market.The uneven situation of pressure appears in the make-ready of " platen " type cold foil printing equipment easily, therefore easy scumming, broken string when thinner lines of thermoprint and picture and text, and when the large-area electrochemical metal forming of thermoprint, easily bubble, incompleteness.Part " circle is pressed circle " type (printing plate and coining plate all are circular rollers) cold foil printing equipment is also arranged on the market now, when thermoprint,, solved the problem of pressure inequality by the contact of the line between the circular roller.

China utility model patent ZL 200620060491.X discloses a kind of sheet lithographic plate cold wave equipment, comprise stock feeding device, stock material collecting device, cold wave device, the cold wave device comprises that the stamping systems film unreels unit, stamping systems film rolling unit, transfer printing unit, photocuring unit; Be provided with the offset lithography unit between stock feeding device and the transfer printing unit; Be provided with first conveyer belt between stock feeding device and the lithographic plate offset print unit, be provided with second conveyer belt that drives by servo control mechanism between offset lithography unit and the transfer printing unit, be provided with the 3rd conveyer belt between transfer printing unit and the stock material collecting device; Second conveyer belt is provided with suction hole, and suction hole connects negative pressure air-suction device, and described transfer printing unit comprises impression rubber roll and the impression metallic roll that presses mutually.In the prior art, second conveyer belt is driven by servo control mechanism, the speed of service by the controlling changing conveyer belt, or make conveyer belt some the time suspend, to adjust, to dwindle the spacing of adjacent two sheet of printing stock above conveyer belt, eliminate the spacing of two sheet of printing stock on conveyer belt that causes owing to the neutral gear on the printing roller in the offset lithography unit, when making stock arrive transfer printing unit, it is very compact that the spacing of adjacent two sheet of printing stock becomes, thereby improve the utilization rate of metal blocking foil.In the prior art, also be provided with the version seam position that the photocell eye checkout gear is used for the laser stamping systems, and transfer the signal to the servo control mechanism, by servo control mechanism according to this signal controlling stock speed of service and real time position, make the stock interstitial site just aim at laser stamping systems version seam position, thereby make the stock surface avoid laser stamping systems version seam.

The problem that the prior art exists is, can only adjust spacing between the stock by servo control mechanism, can not adjust the metal blocking foil of the thermoprint on the stock, still can cause the metal blocking foil waste when therefore carrying out local thermoprint on stock.

Summary of the invention

At exist in the correlation technique on stock, carry out local thermoprint the time cause the problem of stamping systems waste, main purpose of the present utility model is to provide a kind of cold foil printing equipment that can reduce the stamping systems waste.Attached purpose of the present utility model is to provide a kind of cold foil printing equipment that can adjust a plurality of stamping systems simultaneously.

For achieving the above object, according to an aspect of the present utility model, a kind of cold foil printing equipment is provided, comprise printed material feeder and printed material receiving mechanism, described printed material feeder is provided with coating mechanism successively between the described printed material receiving mechanism, laminating mechanism and curing mechanism, be provided with the first printed material connecting gear between described printed material feeder and the described coating mechanism, be provided with the second printed material connecting gear between described coating mechanism and the described laminating mechanism, be provided with the 3rd printed material connecting gear between described laminating mechanism and the described printed material receiving mechanism, described second printed material connecting gear top is provided with the stamping systems unreeling structure, described the 3rd printed material connecting gear top is provided with the stamping systems rolling-up mechanism, described laminating mechanism comprises roller platen and transferring roller, described stamping systems unreeling structure comprises let off roll and unreels roll shaft, described stamping systems rolling-up mechanism comprises wind-up roll and rolling roll shaft, described roller platen and described let off roll, be provided with jockey pulley and lashing wire roller between the described wind-up roll, described roller platen is controlled by the leapfrog arrangement of clutch, described lashing wire roller, described let off roll and described wind-up roll are by driven by servomotor, and described servomotor is controlled by electronics leapfrog control system.

According to the utility model, described electronics leapfrog control system comprises microprocessor module, leapfrog MIM message input module and output control module, described leapfrog MIM message input module is used for to described micro treatment module input leapfrog information, described microprocessor module is used to handle described leapfrog information and skip is sent to described output control module, and described output control module is controlled described servomotor according to described skip.

According to an embodiment of the present utility model, described leapfrog arrangement of clutch is a pneumatic clutch, and described pneumatic clutch is used to make described roller platen with described transferring roller pressing or separate, and described pneumatic clutch is controlled by described electronics leapfrog control system.

According to another embodiment of the present utility model, described leapfrog arrangement of clutch is the relief printing plate that is arranged on described roller platen periphery, described relief printing plate according to described leapfrog information with described transferring roller pressing or separate.

According to the utility model, described let off roll and described wind-up roll are a plurality of, and described let off roll and described wind-up roll are provided with in pairs, a plurality of described let off roll are serially connected in described unreeling on the roll shaft, a plurality of described wind-up rolls are serially connected on the described rolling roll shaft, the described relief printing plate of described roller platen periphery has a plurality of, corresponding a pair of described let off roll of each described relief printing plate and described wind-up roll.Describedly unreel roll shaft and described rolling roll shaft is more than two, the described let off roll that unreels on the roll shaft is interspersed in the axial direction; Wind-up roll on the described rolling roll shaft is interspersed in the axial direction.Preferably, the quantity of the described lashing wire roller between every pair of described let off roll and described wind-up roll and the described roller platen is 4～8.

According to the utility model, between described let off roll and described wind-up roll, also be provided with electronic eyes, described electronic eyes is connected with described electronics leapfrog control system.Described coating mechanism comprises anilox roll, version roller, impression cylinder and driving drum; Described curing mechanism is the UV-irradiation device, and described UV-irradiation device is arranged on described the 3rd printed material connecting gear top and close described roller platen.The described second printed material conveying mechanism is provided with suction hole, and described suction hole is connected with getter device.

By above-mentioned at least one technical scheme of the utility model, by not only finishing the stamping systems leapfrog in the space between printed material by the lashing wire roller of electronics leapfrog control system control, and can on printed material, not need the position of thermoprint to finish the stamping systems leapfrog, thereby can reduce the waste of stamping systems to greatest extent.Wherein, adopt a plurality of let off roll and wind-up roll, can adjust respectively a plurality of stamping systems simultaneously, thereby enhance productivity, reduce production costs.

Description of drawings

Fig. 1 is the structural representation of cold foil printing equipment when moulded state of an embodiment of the utility model;

Fig. 2 is the structural representation of cold foil printing equipment when the leapfrog state shown in Figure 1;

Fig. 3 is the partial structurtes schematic diagram of the cold foil printing equipment of another embodiment of the utility model;

Fig. 4 is the sectional perspective structural representation of the cold foil printing equipment of another embodiment of the utility model;

The 1-driving drum, the 2-impression cylinder, 3-version roller, the 4-ceramic anilox roller, the 5-roller platen, the 6-transferring roller, 7-printed material feeder, 8-printed material receiving mechanism, the 9-first printed material connecting gear, the 10-second printed material connecting gear, 11-the 3rd printed material connecting gear, the 12-let off roll, 13-unreels roll shaft, the 14-wind-up roll, 15-rolling roll shaft, 16-lashing wire roller, the 17-jockey pulley, the 18-servomotor, 19-electronics leapfrog control system, the 20-electronic eyes, 21-UV-irradiation device, the 22-relief printing plate.

The specific embodiment

The cold foil printing equipment of embodiment shown in Figure 1 comprises printed material feeder 7 and printed material receiving mechanism 8, between printed material feeder 7 and printed material receiving mechanism 8, be provided with coating mechanism successively, laminating mechanism, be provided with the first printed material connecting gear 9 between printed material feeder 7 and the coating mechanism, be provided with the second printed material connecting gear 10 between coating mechanism and the laminating mechanism, be provided with the 3rd printed material connecting gear 11 between laminating mechanism and the printed material receiving mechanism 8, the second printed material connecting gear, 10 tops are provided with the stamping systems unreeling structure, the 3rd printed material connecting gear 11 tops are provided with the stamping systems rolling-up mechanism, laminating mechanism comprises roller platen 5 and is positioned at transferring roller 6 under the roller platen 5, the stamping systems unreeling structure comprises let off roll 12 and unreels roll shaft 13, the stamping systems rolling-up mechanism comprises wind-up roll 14 and rolling roll shaft 15, coating mechanism comprises ceramic anilox roller 4, version roller 3, impression cylinder 2 and driving drum 1, also the position near roller platen 5 is provided with electronic eyes 20 above the second printed material connecting gear 10, also the position near roller platen 5 is provided with UV-irradiation device 21 above the 3rd printed material connecting gear 11, at roller platen 5 and let off roll 12, be provided with jockey pulley 17 and lashing wire roller 16 between the wind-up roll 14, lashing wire roller 16, let off roll 12 and wind-up roll 14 are driven by servomotor 18, roller platen 5 is connected with the pneumatic clutch (not shown), pneumatic clutch can make roller platen 5 with transferring roller 6 pressings or separate, pneumatic clutch and servomotor 18 are by 19 controls of electronics leapfrog control system, electronic eyes 20 is connected with electronics leapfrog control system 19, be provided with suction hole on the second printed material connecting gear 10, suction hole is connected with the getter device (not shown).

In the present embodiment, electronics leapfrog control system 19 comprises microprocessor module, leapfrog MIM message input module and output control module, the leapfrog MIM message input module is used for to micro treatment module input leapfrog information, microprocessor module is used to handle leapfrog information and skip is sent to output control module, and output control module is controlled described servomotor 18 and pneumatic clutch according to skip.

The cold foil printing equipment of present embodiment is when moulded state, and when local thermoprint, the printed material that printed material feeder 7 provides (as paper) is through the driving drum 1 of the first printed material connecting gear 9 to the coating mechanism; Coating mechanism ceramic anilox roller 4 when work contacts with version roller 3, version roller 3 contacts with impression cylinder 2, adorns resin plate on the version roller 3, and the agent of ultraviolet light polymerization gluing is transferred to earlier on edition roller 3, transfer to the printed material surface again, i.e. ultraviolet light polymerization gluing agent in the printing of printed material surface local; Printed material is sent to laminating mechanism through the second printed material connecting gear 10 then, and electronics leapfrog control system 19 control pneumatic clutches are pressed against on the transferring roller 6 roller platen 5, and roller platen 5 and transferring roller 6 are rotatably assorted; The electrochemical metal foil film that let off roll 12 is emitted is attached on the wind-up roll 14 through roller platen 5,2 lashing wire rollers 16 and several jockey pulleys 17 are arranged respectively on the operating path of the both sides of roller platen 5, electrochemical metal foil film, jockey pulley 17 is driven rolls, be used to keep the tension force of electrochemical metal forming, electronics leapfrog control system 19 control servomotors 18 drive lashing wire roller 16 and clockwise rotate, and electrochemical metal foil film transmits to wind-up roll 14 directions from let off roll 12; At the laminating mechanism place, the printed material that electrification metal foil film and surface scribble the agent of ultraviolet light polymerization gluing is molded into one, mold pressing all-in-one-piece printed material solidifies through 21 irradiations of UV-irradiation device on the 3rd printed material connecting gear 11, printed material and electrochemical metal foil film are peeled off then, enter printed material receiving mechanism 8 and wind-up roll 14 respectively; Wind-up roll 14 must be regulated the tension force of electrochemical metal foil film by jockey pulley 17 when rolling, neat to guarantee rolling; The electrochemical metal foil film of electronic eyes 20 monitorings is embossed in position and the transfer rate on the printed material, and gives electronics leapfrog control system 19 with feedback information.Skew or transfer rate take place when unusual when electronic eyes 20 monitors electrochemical metal foil film, electronics leapfrog control system 19 can give a warning.When full edition thermoprint, reequip blanket on the version roller 3, ceramic anilox roller 4 is transferred to the agent of ultraviolet light polymerization gluing earlier on the blanket, transfers on the printed material again.

As shown in Figure 2, the cold foil printing equipment of present embodiment is when the leapfrog state, electronics leapfrog control system 19 control pneumatic clutches make roller platen 5 separate with transferring roller 6, electronics leapfrog control system 19 control servomotors 18 drive lashing wire roller 16 and rotate counterclockwise, wind-up roll 14, let off roll 12 and lashing wire roller 16 rotate with speed, and electrochemical metal foil film transmits to let off roll 12 directions from wind-up roll 14, thereby finishes leapfrog, in the leapfrog process, jockey pulley 17 is adjusted the tension force of electrochemical metal foil film.

As shown in Figure 3, the cold foil printing equipment of another embodiment of the present utility model, basic identical with the structure of last embodiment, difference is, roller platen 5 does not connect pneumatic clutch but is provided with relief printing plate 22 in periphery, and the fixed distance between roller platen 5 and the transferring roller 6 is constant.Relief printing plate 22 forms protuberance and recess according to the leapfrog information issuing, needs the position of mold pressing on the corresponding printed material of the protuberance of relief printing plate 22, needs the position (position that does not promptly need mold pressing electrification metal foil film) of leapfrog on the corresponding printed material of the recess of relief printing plate 22.When relief printing plate 22 was arranged on the periphery of roller platen 5, the protuberance of relief printing plate 22 can make relief printing plate 22 and transferring roller 6 pressings, and the recess of relief printing plate 22 can make relief printing plate 22 separate with transferring roller 6.When the thermoprint operation, roller platen 5 rotates and drives relief printing plate 22 simultaneously, when turning to the protuberance of relief printing plate 22, relief printing plate 22 and transferring roller 6 pressings, electronics leapfrog control system 19 control servomotors 18 drive lashing wire roller 16 and clockwise rotate, the electrification metal foil film transmits to wind-up roll 14 directions from let off roll 12, and electrochemical metal foil film is molded into one at laminating mechanism place and printed material; When turning to the recess of relief printing plate 22, relief printing plate 22 separates with transferring roller 6, electronics leapfrog control system 19 control servomotors 18 drive lashing wire roller 16 and rotate counterclockwise, wind-up roll 14, let off roll 12 and lashing wire roller 16 rotate with speed, the electrification metal foil film transmits to let off roll 12 directions from wind-up roll 14, thereby finishes leapfrog.

As shown in Figure 4, the cold foil printing equipment of another embodiment of the present utility model, basic identical with the structure of previous embodiment, difference is, unreel roll shaft 13 and rolling roll shaft 15 and be two, each unreels and is serially connected with a plurality of let off roll 12 on the roll shaft 13, is serially connected with a plurality of wind-up rolls 14 on each rolling roll shaft 15, let off roll 12 and wind-up roll 14 are provided with in pairs, and two let off roll 12 that unreel on the roll shaft 13 are interspersed in the axial direction; Wind-up roll 14 on two rolling roll shafts 15 also is interspersed in the axial direction, and at the corresponding every pair of retractable winding up roller 12 of roller platen 5 peripheries relief printing plate 22 (not shown)s are set, are provided with 4 lashing wire rollers 16 and several jockey pulleys 17 between the every pair of retractable winding up

roller

14,12 and the roller platen 5.The cold foil printing equipment operation principle of present embodiment is identical with previous embodiment.The cold foil printing equipment of present embodiment can carry out leapfrog control at the electrochemical metal foil film on every pair of retractable winding up

roller

14,12.

Certainly, in a further embodiment, the quantity of the lashing wire roller 16 that is provided with between every pair of retractable winding up roller 12 of cold foil printing equipment and the roller platen 5 also can be 6 or 8.And in other embodiment, cold foil printing equipment also can all be serially connected in one to a plurality of let off roll 12 and unreel on the roll shaft 13, and a plurality of wind-up rolls 14 all are serially connected on the rolling roll shaft 15.In addition, in other embodiment of the present utility model, curing mechanism can also be hot blast solidification equipment or electronic beam curing device, the hot blast solidification equipment uses heated-air drying curing mold pressing all-in-one-piece printed material, and the electronic beam curing device uses electronic beam curing (also claiming EB to solidify) method curing mold pressing all-in-one-piece printed material.

In sum, by above-mentioned at least one technical scheme of the utility model, by not only can the space between printed material by the lashing wire roller 16 of electronics leapfrog control system 19 control finishing the leapfrog of electrochemical metal foil film, and the position that can not need thermoprint on printed material finishes the leapfrog of electrochemical metal blocking foil, thereby can reduce the waste of electrochemical stamping systems to greatest extent.Wherein, adopt a plurality of let off roll 12 and wind-up roll, can adjust respectively a plurality of electrochemical metal blocking foils simultaneously again, thereby enhance productivity, reduce production costs.In addition, cold foil printing equipment of the present utility model can also be used for the laser pattern stamp transfer, particularly when local laser imprinted shifts, can realize leapfrog, improves the access times of laser film.

The above is the preferred embodiments of the present invention only, is not limited to the present invention, and for a person skilled in the art, the present invention can have various changes and variation.Within the spirit and principles in the present invention all, any modification of being done, be equal to replacement, improvement etc., all should be included within protection scope of the present invention.

Claims

1. cold foil printing equipment, comprise printed material feeder and printed material receiving mechanism, described printed material feeder is provided with coating mechanism successively between the described printed material receiving mechanism, laminating mechanism and curing mechanism, be provided with the first printed material connecting gear between described printed material feeder and the described coating mechanism, be provided with the second printed material connecting gear between described coating mechanism and the described laminating mechanism, be provided with the 3rd printed material connecting gear between described laminating mechanism and the described printed material receiving mechanism, described second printed material connecting gear top is provided with the stamping systems unreeling structure, described the 3rd printed material connecting gear top is provided with the stamping systems rolling-up mechanism, described laminating mechanism comprises roller platen and transferring roller, described stamping systems unreeling structure comprises let off roll and unreels roll shaft, described stamping systems rolling-up mechanism comprises wind-up roll and rolling roll shaft, it is characterized in that, described roller platen and described let off roll, be provided with jockey pulley and lashing wire roller between the described wind-up roll, described roller platen is controlled by the leapfrog arrangement of clutch, described lashing wire roller, described let off roll and described wind-up roll are by driven by servomotor, and described servomotor is controlled by electronics leapfrog control system.

2. cold foil printing equipment according to claim 1, it is characterized in that, described electronics leapfrog control system comprises microprocessor module, leapfrog MIM message input module and output control module, described leapfrog MIM message input module is used for to described micro treatment module input leapfrog information, described microprocessor module is used to handle described leapfrog information and skip is sent to described output control module, and described output control module is controlled described servomotor according to described skip.

3. cold foil printing equipment according to claim 2, it is characterized in that, described leapfrog arrangement of clutch is a pneumatic clutch, and described pneumatic clutch is used to make described roller platen with described transferring roller pressing or separate, and described pneumatic clutch is controlled by described electronics leapfrog control system.

4. cold foil printing equipment according to claim 2 is characterized in that, described leapfrog arrangement of clutch is the relief printing plate that is arranged on described roller platen periphery, described relief printing plate according to described leapfrog information with described transferring roller pressing or separate.

5. cold foil printing equipment according to claim 4, it is characterized in that, described let off roll and described wind-up roll are a plurality of, and described let off roll and described wind-up roll are provided with in pairs, a plurality of described let off roll are serially connected in described unreeling on the roll shaft, a plurality of described wind-up rolls are serially connected on the described rolling roll shaft, and the described relief printing plate of described roller platen periphery has a plurality of, corresponding a pair of described let off roll of each described relief printing plate and described wind-up roll.

6. cold foil printing equipment according to claim 5 is characterized in that, describedly unreels roll shaft and described rolling roll shaft is more than two, and the described let off roll that unreels on the roll shaft is interspersed in the axial direction; Wind-up roll on the described rolling roll shaft is interspersed in the axial direction.

7. cold foil printing equipment according to claim 5 is characterized in that, the quantity of the described lashing wire roller between every pair of described let off roll and described wind-up roll and the described roller platen is 4～8.

8. according to the described cold foil printing equipment of one of claim 1 to 7, it is characterized in that, also be provided with electronic eyes between described let off roll and described wind-up roll, described electronic eyes is connected with described electronics leapfrog control system.

9. according to the described cold foil printing equipment of one of claim 1 to 7, it is characterized in that described coating mechanism comprises anilox roll, version roller, impression cylinder and driving drum; Described curing mechanism is the UV-irradiation device, and described UV-irradiation device is arranged on described the 3rd printed material connecting gear top and close described roller platen.

10. according to the described cold foil printing equipment of one of claim 1 to 7, it is characterized in that the described second printed material conveying mechanism is provided with suction hole, described suction hole is connected with getter device.