CN217145330U - Cold stamping machine for multiple gold stamping patterns - Google Patents

Abstract

The utility model provides a many gilt patterns cold perm machine, includes pay-off platform, receipts material platform and many gilt patterns cold perm mechanism, and many gilt patterns cold perm mechanism sets up between pay-off platform, receipts material platform, its characterized in that: the multi-gilt pattern cold stamping mechanism comprises a single-sheet printed matter conveying unit and a plurality of liftable cold stamping units, the single-sheet printed matter conveying unit receives the single-sheet printed matter from the feeding table and conveys the single-sheet printed matter to the feeding table after sequentially passing through the liftable cold stamping units, and the liftable cold stamping units complete cold stamping processing of one corresponding gilt pattern on the surface of the passing single-sheet printed matter respectively. Compared with the prior art, the utility model, owing to adopt a plurality of liftable cold stamping unit to be responsible for the cold stamping of the different gilt patterns in many gilt patterns respectively, consequently can save gilt electrochemical aluminium by a wide margin, effectively reduce manufacturing cost, the energy saving reduces the pollution to the environment.

Description

Cold stamping machine for multiple gold stamping patterns

Technical Field

The utility model relates to a cold perm machine for sola printed matter, more specifically say and relate to a can effectively utilize the cold perm machine that is used for many gold stamping pattern processing of sola printed matter of gilt electrochemical aluminium.

Background

At present, a plurality of single-sheet printed matters need to be subjected to hot stamping on the surface, and because the hot stamping patterns are usually only a small area, people often adopt a skip printing mode in order to effectively save hot stamping alumite, after the hot stamping patterns are processed, a press roller of a cold stamping printing mechanism is lifted, and after the next single-sheet printed matter is sent, the press roller is lowered again for cold stamping printing.

However, the cold stamping machine with the cold stamping printing mechanism capable of performing skip printing is only suitable for the condition that only one gilding pattern exists on the surface of a single printed matter. Once a plurality of gold stamping patterns exist on the surface of a single printed matter, the cold stamping machine cannot be used for processing.

In this application, the multiple bronzing patterns refer to that there are two or more bronzing patterns, each bronzing pattern is sequentially distributed along the longitudinal direction of a single printed matter and the longitudinal distance between any two adjacent bronzing patterns is greater than zero, and the longitudinal distance is usually large, for example: the two gilding patterns are respectively positioned at two opposite corners of the surface of a single printed matter.

In the prior art, under the condition that a plurality of gold stamping patterns exist on the surface of a single printed matter, the whole area is generally regarded as a large gold stamping pattern comprising all the gold stamping patterns, and a traditional processing method is adopted, namely, a cold stamping printing mechanism is adopted to finish processing all the gold stamping patterns at one time, so that a large amount of gold stamping alumite can be wasted, and most of the gold stamping alumite is not utilized.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a many gilt pattern cold stamping machine, this kind of many gilt pattern cold stamping machine can accomplish the processing of polylith gilt pattern in proper order on sola printed matter surface to can utilize gilt electrochemical aluminium effectively. The technical scheme is as follows:

the utility model provides a many gilt pattern cold perms machine, includes pay-off platform, receipts material platform and many gilt pattern cold perms mechanism, and many gilt pattern cold perms mechanism sets up between pay-off platform, receipts material platform, its characterized in that: the multi-gilt pattern cold stamping mechanism comprises a single-sheet printed matter conveying unit and a plurality of liftable cold stamping units, the single-sheet printed matter conveying unit receives the single-sheet printed matter from the feeding table and conveys the single-sheet printed matter to the feeding table after sequentially passing through the liftable cold stamping units, and the liftable cold stamping units complete cold stamping processing of one corresponding gilt pattern on the surface of the passing single-sheet printed matter respectively.

In a preferred scheme, the number of the lifting cold stamping units is two.

The better scheme, liftable cold stamping unit includes back-up roll, compression roller, electric pressure cylinder, gilt electrochemical aluminium membrane unwinding device, useless membrane coiling mechanism, removable gilt electrochemical aluminium membrane book, the compression roller, the relative setting of lower back-up roll and compression roller are located the lower back-up roll top, the perpendicular downwardly extending of action end of electric pressure cylinder and compression roller are installed on the action end of electric pressure cylinder, gilt electrochemical aluminium membrane book is installed on gilt electrochemical aluminium membrane unwinding device, and after the gilt electrochemical aluminium membrane of gilt electrochemical aluminium membrane book output was walked around from the compression roller lower extreme, the useless membrane after the processing was rolled by useless membrane coiling mechanism.

According to a more preferable scheme, the gold stamping electrochemical aluminum film unwinding device is driven by a servo motor.

According to a more preferable scheme, the waste film winding device is driven by a servo motor.

According to a more preferable scheme, the single-sheet printed matter conveying unit comprises a transmission motor, a synchronous transmission belt, two pairs of synchronous wheels and a conveying belt, wherein one pair of synchronous wheels are respectively installed on a rotating shaft of an output shaft of the synchronous wheel transmission motor and a rotating shaft of a lower supporting roller of one liftable cold stamping unit, the other pair of synchronous wheels are respectively installed on an output shaft of the synchronous wheel transmission motor and a rotating shaft of a lower supporting roller of the other liftable cold stamping unit, the synchronous transmission belt is sleeved on the two pairs of synchronous wheels, and the conveying belt is sleeved on the lower supporting rollers of the two liftable cold stamping units.

According to a more preferable scheme, the feeding table adopts a belt conveying mechanism, the belt conveying mechanism is driven by a driving wheel, and a lower supporting roller of a liftable cold hot stamping unit adjacent to the driving wheel drives the driving wheel to rotate through a belt transmission mechanism.

According to a more preferable scheme, the material receiving platform adopts a belt conveying mechanism, the belt conveying mechanism is driven by a driving wheel, and a lower supporting roller of a liftable cold stamping unit adjacent to the driving wheel drives the driving wheel to rotate through a belt transmission mechanism.

The better scheme, many gilt pattern cold stamping machine still includes controlling means, sola printed matter detection device, and sola printed matter detection device sets up in pay-off platform exit, and controlling means is connected with sola printed matter detection device, a plurality of liftable cold stamping unit electricity respectively, and controlling means receives the detected signal of sola printed matter detection device and controls each liftable cold stamping unit work respectively.

In a preferred scheme, the control device is a PLC control device, and the single-sheet printed matter detection device is a photoelectric eye.

Compared with the prior art, the utility model, owing to adopt a plurality of liftable cold stamping unit to be responsible for the cold stamping of the different gilt patterns in many gilt patterns respectively, consequently can save gilt electrochemical aluminium by a wide margin, effectively reduce manufacturing cost, the energy saving reduces the pollution to the environment.

Drawings

Fig. 1 is a schematic structural diagram of an embodiment of the present invention;

FIG. 2 is a schematic illustration of the construction of the sheet of print processed according to the embodiment of FIG. 1;

fig. 3 is a schematic block diagram of the circuitry of the embodiment shown in fig. 1.

Detailed Description

As shown in fig. 1, the cold stamping machine with multiple gold stamping patterns in one embodiment of the application includes a feeding table 1, a receiving table 2 and multiple gold stamping pattern cold stamping mechanisms 3, the multiple gold stamping pattern cold stamping mechanisms 3 are arranged between the feeding table 1 and the receiving table 2, the multiple gold stamping pattern cold stamping mechanisms 3 include a single-sheet printed matter conveying unit 301 and multiple liftable cold stamping units 302, the single-sheet printed matter conveying unit 301 receives a single-sheet printed matter from the feeding table 1 and conveys the single-sheet printed matter to pass through the liftable cold stamping units 302 in sequence and then to the receiving table 2, and the liftable cold stamping units 302 respectively complete cold stamping processing of a corresponding gold stamping pattern on the surface of the passing single-sheet printed matter.

As shown in fig. 1, in an alternative embodiment, the number of the liftable cold stamping units 302 is two.

As shown in fig. 1, in an alternative embodiment, the liftable cold stamping unit 302 includes a lower supporting roller 3021, a pressing roller 3022, an electric pressure cylinder 3023, a gold stamping electrochemical aluminum film unwinding device 3024, a waste film winding device 3025, and a replaceable gold stamping electrochemical aluminum film roll 3026, where the pressing roller 3022 and the lower supporting roller 3021 are oppositely disposed, the pressing roller 3022 is located above the lower supporting roller 3021, an action end of the electric pressure cylinder 3023 extends vertically downward and the pressing roller 3022 is installed on an action end of the electric pressure cylinder 3023, the gold stamping electrochemical aluminum film roll 3026 is installed on the gold stamping electrochemical aluminum film unwinding device 3024, and after the gold stamping electrochemical aluminum film output by the gold stamping electrochemical aluminum film roll 3026 is bypassed from a lower end of the pressing roller 3022, the processed waste film is wound by the waste film winding device 3025.

As shown in fig. 1, in an alternative embodiment, the gold stamping electrochemical aluminum film unwinding device 3024 is driven by a servo motor.

In an alternative embodiment, as shown in fig. 1, the waste film winding device 3025 is driven by a servo motor.

As shown in fig. 1, in an alternative embodiment, the sheet-fed printed matter conveying unit 301 includes a transmission motor 3011, two synchronous transmission belts 3012, two pairs of synchronizing wheels 3013, and a conveying belt 3014, where one pair of synchronizing wheels 3013 are respectively installed on an output shaft of the synchronizing wheel transmission motor 3011 and a rotating shaft of a lower support roller 3021 of one liftable cold stamping unit 302, the other pair of synchronizing wheels 3013 are respectively installed on an output shaft of the synchronizing wheel transmission motor 3011 and a rotating shaft of a lower support roller 3021 of the other liftable cold stamping unit 302, the synchronous transmission belts 3012 are sleeved on the two pairs of synchronizing wheels 3013, and the conveying belt 3014 is sleeved on the lower support rollers 3021 of the two liftable cold stamping units 302.

As shown in fig. 1, in an alternative embodiment, the feeding table 1 employs a belt conveying mechanism, the belt conveying mechanism is driven by a driving wheel, and a lower support roller 3021 of a liftable cold stamping unit 302 adjacent to the driving wheel drives the driving wheel to rotate through a belt transmission mechanism.

As shown in fig. 1, in an alternative embodiment, the material receiving platform 2 adopts a belt conveying mechanism, the belt conveying mechanism is driven by a driving wheel, and a lower supporting roller 3021 of a liftable cold stamping unit 302 adjacent to the driving wheel drives the driving wheel to rotate through a belt transmission mechanism.

As shown in fig. 1 and 3, in an alternative embodiment, the multiple bronzing pattern cold stamping machine further includes a control device and a single-printed-matter detection device, the single-printed-matter detection device is disposed at an outlet of the feeding table 1, the control device is electrically connected to the single-printed-matter detection device and the two liftable cold stamping units 302, and the control device receives a detection signal of the single-printed-matter detection device and controls the liftable cold stamping units 302 to work. In this embodiment, the servo motor of the gold stamping electrochemical aluminum film unwinding device 3024, the servo motor of the waste film winding device 3025, and the electric pressure cylinder 3023 of each liftable cold stamping unit 302 are respectively electrically connected to the control device, and the control device respectively controls the servo motor of the gold stamping electrochemical aluminum film unwinding device 3024, the servo motor of the waste film winding device 3025, and the electric pressure cylinder 3023 to operate.

As shown in fig. 3, in an alternative embodiment, the control device is electrically connected to the driving motor 3011 of the sheet-fed printed matter conveying unit 301, and the control device controls the driving motor 3011 of the sheet-fed printed matter conveying unit 301 to operate.

In an alternative embodiment, the drive motor 3011 of the sheet-fed printed matter conveying unit 301 is a servo motor.

As shown in fig. 3, an alternative embodiment, the control means is a PLC control means and the sheet-fed print detection means is a photo-eye 4.

The following operation is described with reference to fig. 1-3:

feeding in a single printed matter 5;

two lifting cold stamping units 302 are adopted to sequentially finish cold stamping of two gold stamping patterns on a single printed matter 5;

and sending out the single printed matter 5 which completes the cold hot stamping twice.

The fed sheet of printed matter 5 is fed by the feeding table 1 after being printed with UV glue by the printing press at the positions of the first and second gold stamping patterns 6, 7 in the printing press (i.e. the front processing equipment).

After receiving the signal of the photoelectric eye, the PLC control device controls the electric cylinder 3023 of the first liftable cold stamping unit 302 to descend, after the electric cylinder 3023 contacts the lower corresponding support roller 3021, the detected single printed matter 5 is just sent between the two, the electric cylinder 3023 cooperates with the lower support roller 3021 to press and adhere the hot stamping electrochemical aluminum to the position of the first hot stamping pattern 6 printed with the UV glue, so as to obtain the first hot stamping pattern 6, then the PLC control device controls the electric cylinder 3023 of the first liftable cold stamping unit 302 to ascend to the original position, and the PLC control device controls the electric cylinder 3023 of the second liftable cold stamping unit 302 to descend, after the electric cylinder 3023 contacts the lower corresponding support roller 3021, the detected single printed matter 5 is just sent between the two, the electric cylinder 3023 cooperates with the lower support roller 3021, and pressing and adhering the gilding alumite to the position of the second gilding pattern 7 printed with the UV glue, so as to obtain the second gilding pattern 7, as shown in FIG. 2.

Because the processing of the first gold stamping pattern 6 and the second gold stamping pattern 7 is respectively completed by adopting the two lifting cold hot stamping units 302, the gold stamping electrochemical aluminum film can be effectively saved. Because the conveyer belt 3014, the feeding table 1, the material receiving table 2 and the lower support rollers 3021 of the two liftable cold hot stamping units 302 can be driven to work simultaneously by using one servo motor, the number of driving devices can be greatly reduced, the consumed energy can be greatly reduced, and the work of each mechanism can be conveniently controlled.

As shown in fig. 2, the upper left corner of the surface of the processed single printed matter is printed with a first gold stamping pattern 6, and the lower right corner is printed with a second gold stamping pattern 7. The conveying line of the single printed products in the whole processing process is from right to left.

In addition, it should be noted that the names of the parts and the like of the embodiments described in the present specification may be different, and all the equivalent or simple changes made according to the structure, the features and the principle of the present invention are included in the protection scope of the present invention. Various modifications, additions and substitutions may be made by those skilled in the art without departing from the scope of the invention as defined in the accompanying claims.

Claims (10)

1. The utility model provides a many gilt pattern cold perms machine, includes pay-off platform, receipts material platform and many gilt pattern cold perms mechanism, and many gilt pattern cold perms mechanism sets up between pay-off platform, receipts material platform, its characterized in that: the multi-gilt pattern cold stamping mechanism comprises a single-sheet printed matter conveying unit and a plurality of liftable cold stamping units, the single-sheet printed matter conveying unit receives the single-sheet printed matter from the feeding table and conveys the single-sheet printed matter to the feeding table after sequentially passing through the liftable cold stamping units, and the liftable cold stamping units complete cold stamping processing of one corresponding gilt pattern on the surface of the passing single-sheet printed matter respectively.

2. The multiple bronzing pattern cold foil press of claim 1, wherein: the number of the lifting cold hot stamping units is two.

3. The multiple bronzing pattern cold foil press of claim 1, wherein: liftable cold stamping unit includes the backing roll down, the compression roller, electronic pressure cylinder, gilt electrochemical aluminium membrane unwinding device, the plastic film waste winding device, removable gilt electrochemical aluminium membrane book, the compression roller, the relative setting of backing roll down is and the compression roller is located the backing roll top, the perpendicular downwardly extending of action end of electronic pressure cylinder is and the compression roller is installed on the action end of electronic pressure cylinder, gilt electrochemical aluminium membrane book is installed on gilt electrochemical aluminium membrane unwinding device, and the gilt electrochemical aluminium membrane of gilt electrochemical aluminium membrane book output is after the compression roller lower extreme has been walked around, the plastic film waste after the processing is by the plastic film waste winding device rolling.

4. The multiple bronzing pattern cold foil press of claim 3, wherein: the gold stamping electrochemical aluminum film unwinding device is driven by a servo motor.

5. The multiple bronzing pattern cold foil press of claim 3, wherein: the waste film winding device is driven by a servo motor.

6. The multiple bronzing pattern cold foil press of claim 3, wherein: the sheet-fed printed matter conveying unit comprises a transmission motor, a synchronous transmission belt, two pairs of synchronous wheels and a conveying belt, wherein one pair of synchronous wheels are respectively installed on a rotating shaft of a lower supporting roller of a synchronous wheel transmission motor output shaft and a liftable cold hot stamping unit, the other pair of synchronous wheels are respectively installed on a rotating shaft of the lower supporting roller of the synchronous wheel transmission motor output shaft and the other liftable cold hot stamping unit, the synchronous transmission belt is sleeved on the two pairs of synchronous wheels, and the conveying belt is sleeved on the lower supporting rollers of the two liftable cold hot stamping units.

7. The multiple bronzing pattern cold foil press of claim 6, wherein: the feeding table adopts a belt conveying mechanism, the belt conveying mechanism is driven by a driving wheel, and a lower supporting roller of a liftable cold stamping unit adjacent to the driving wheel drives the driving wheel to rotate through a belt transmission mechanism.

8. The cold stamping machine with multiple gilding patterns as claimed in claim 6 or 7, wherein: the material receiving platform adopts a belt conveying mechanism, the belt conveying mechanism is driven by a driving wheel, and a lower supporting roller of a liftable cold stamping unit adjacent to the driving wheel drives the driving wheel to rotate through a belt transmission mechanism.

9. The multiple bronzing pattern cold foil press of claim 1, wherein: the multi-gilt pattern cold stamping machine further comprises a control device and a single printed matter detection device, the single printed matter detection device is arranged at the outlet of the feeding table, the control device is respectively electrically connected with the single printed matter detection device and the plurality of liftable cold stamping units, and the control device receives detection signals of the single printed matter detection device and respectively controls the liftable cold stamping units to work.

10. The multiple bronzing pattern cold foil press of claim 9, wherein: the control device is a PLC control device, and the single-sheet printed matter detection device is a photoelectric eye.

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