CN215792541U - Multi-station automatic embossment cold stamping equipment - Google Patents

Abstract

The utility model discloses a multi-station automatic embossment cold-stamping device, belonging to the technical field of glasses frame cold-stamping, and the technical scheme comprises the following key points: a frame; the multi-station turntable is provided with a plurality of printing stations which are distributed circumferentially, and each printing station is provided with a mounting hole for mounting a station die; a screen printing mechanism; a UV curing mechanism; a gold stamping mechanism; the rotary driving mechanism is arranged on the rack and connected with the multi-station turntable, and can drive the multi-station turntable to rotate so that the product die sequentially passes through the silk-screen printing mechanism, the UV curing mechanism and the gold stamping mechanism; the central control system is arranged on the rack and used for controlling the cooperative operation of the mechanisms.

Description

Multi-station automatic embossment cold stamping equipment

Technical Field

The utility model belongs to the technical field of cold-stamping of spectacle frames, and particularly relates to a multi-station automatic embossment cold-stamping device.

Background

Glasses are simple optical devices manufactured for correcting or protecting vision, and are classified into four types, namely glasses for correcting vision, including myopia glasses, hyperopia glasses, presbyopic glasses and astigmatic glasses. The glasses mainly comprise glasses lenses and glasses frames, wherein the glasses frames mainly play a role in supporting the glasses lenses, and along with the current personalized requirements, the glasses not only correct vision, but also play a role in beauty and individuality in daily wearing of people.

At present, the patterns or designs on the surface of the glasses frame are mainly formed by gold stamping. The gold stamping technology, also called as "hot stamping", is a printing decoration process. It is that a gold character or pattern is stamped on a printed matter by using a metal printing plate. The hot stamping technology can be divided into cold hot stamping and hot stamping. Hot gold stamping is a traditional process of transferring an electrochemical aluminum foil by means of hot pressing, cold gold stamping is to directly transfer gold stamping patterns to the surface of a printing stock without heating, glue UV (patterns) is printed at the position of the printing stock needing gold stamping through a printing unit, then a printing material is covered with a cold stamping film through a pressing roller, and the cold stamping film is cured after UV lamp illumination. The cold stamping technology not only solves the process problems which are difficult to solve in the past in many printing industries, but also more importantly saves energy and avoids the pollution to the environment in the process of manufacturing the metal printing plate.

However, in the process of completing printing, the existing glasses frame cannot realize integrated processing, and needs other equipment to perform separate processing, which not only needs multiple conveying steps, but also can print only one printed material at a time, which seriously affects the production efficiency, and therefore, there is still room for improvement.

SUMMERY OF THE UTILITY MODEL

Aiming at the defects in the prior art, the utility model aims to provide the multi-station automatic embossment cold stamping equipment which has the advantages that a plurality of printing stocks can be printed simultaneously, the printing stocks are processed in an integrated mode, and the production efficiency is high.

In order to achieve the purpose, the utility model provides the following technical scheme: a multi-station automatic embossment cold stamping equipment, comprising:

a frame;

the multi-station turntable is provided with a plurality of printing stations which are distributed circumferentially, and each printing station is provided with a mounting hole for mounting a station die;

the screen printing mechanism is arranged on the rack and corresponds to the station die;

the UV curing mechanism is arranged on the rack and corresponds to the station die;

the gold stamping mechanism is arranged on the rack and corresponds to the station die;

the rotary driving mechanism is arranged on the rack and connected with the multi-station turntable, and can drive the multi-station turntable to rotate so that the product die sequentially passes through the silk-screen printing mechanism, the UV curing mechanism and the gold stamping mechanism;

and the central control system is arranged on the rack and is used for controlling the cooperative operation of the mechanisms.

By adopting the technical scheme, during operation, each station mould is firstly installed on the corresponding printing station, then the printing stock is placed on the corresponding station mould, and finally the rotating speed of the rotary driving mechanism is set through the central control system, so that the station mould provided with the printing stock sequentially passes through the silk-screen printing mechanism, the UV curing mechanism and the gold stamping mechanism within a specified time, and the printing operation of the printing stock can be completed.

In conclusion, the operation can be used for simultaneously printing a plurality of printing stocks, and the printing stocks are processed in an integrated mode, so that the production efficiency is high.

The utility model is further configured to: the silk screen printing mechanism comprises a screen printing plate fixing assembly, a scraper translation device used for driving the scraper assembly to translate left and right and a scraper lifting device used for driving the scraper assembly to lift.

By adopting the technical scheme, during working, the screen printing plate is firstly installed on the screen printing plate fixing assembly, and then the scraper lifting device and the scraper translation device are sequentially started so as to realize the movement of the scraper assembly in the horizontal and height directions.

The utility model is further configured to: the fixed subassembly of half tone includes half tone fixing base, half tone fixed bolster and half tone lift cylinder, the vertical first guide arm that sets up two mutual parallels on the half tone fixing base, two it has same silk screen printing sliding block to slide on the first guide arm, the silk screen printing sliding block is provided with the fixed plate towards one side at multistation carousel center, half tone fixed bolster is installed on the fixed plate and is located station mould top, the top of silk screen printing sliding block is provided with the silk screen printing lift seat of fixing with two first guide arms, and half tone lift cylinder is fixed on the silk screen printing lift seat and its piston rod is connected with the silk screen printing sliding block.

By adopting the technical scheme, after the screen lifting cylinder is started, the screen printing sliding block and the screen fixing support can do reciprocating motion along the height direction of the first guide rod, so that the screen fixing support can be close to or far away from the station die.

The utility model is further configured to: two the top of first guide arm is connected with same first limiting plate, threaded connection has the silk screen printing lift lead screw that length direction and first guide arm paralleled on the first limiting plate, the lower extreme and the silk screen printing lift seat threaded connection of silk screen printing lift lead screw just pass the silk screen printing sliding block, the upper end of silk screen printing lift lead screw just is located first limiting plate top fixedly connected with lead screw adjustment handle.

Through adopting above-mentioned technical scheme, when rotating lead screw adjustment handle, silk screen printing lift seat can make reciprocating motion along the direction of height of silk screen printing lift lead screw to drive the silk screen printing sliding block and reciprocate, increase the altitude mixture control scope of half tone fixed bolster, be suitable for the station mould of different grade type or specification.

The utility model is further configured to: the scraper translation device comprises vertical plates arranged on two sides of the fixing plate, rodless cylinders located between the two vertical plates and a scraper connecting seat used for connecting a sliding block of the rodless cylinders with the scraper assembly, and photoelectric limit switches are arranged on two sides of the sliding block, located on the rodless cylinders, of the upper end of the fixing plate.

Through adopting above-mentioned technical scheme, after rodless cylinder starts, its slider can remove about can moving, and then drives scraper connecting seat and scraper subassembly and realize controlling the translation. The photoelectric limit switch is used for limiting the moving stroke of the sliding block and improving the accuracy of operation.

The utility model is further configured to: scraper elevating gear includes that four are the rectangle and distribute and run through the carriage release lever of scraper connecting seat, set up in the movable plate at carriage release lever top and install in on the scraper connecting seat and the scraper lift cylinder that the piston rod is connected with the movable plate, scraper subassembly fixed mounting in the lower extreme of carriage release lever.

Through adopting above-mentioned technical scheme, after starting scraper lift cylinder, the carriage release lever can drive scraper subassembly and make reciprocating motion along its vertical direction, realizes scraper subassembly's altitude mixture control.

The utility model is further configured to: UV solidification mechanism includes UV fixing base, two vertical second guide arms, the connection two that set up on the UV fixing base the second limiting plate at second guide arm top and with second limiting plate threaded connection and length direction and the UV lift lead screw that the second guide arm parallels, threaded connection has the UV sliding block on the UV lift lead screw, and two second guide arms are worn to establish the both sides of UV sliding block, one side fixed mounting of UV sliding block has the UV solidification module that is located station mould top, have ultraviolet source in the UV solidification module, this ultraviolet source is LED.

Through adopting above-mentioned technical scheme, when rotating UV lift lead screw, UV sliding block and UV solidification module can make reciprocating motion along the direction of height of second guide arm to this altitude mixture control who realizes UV solidification module.

The utility model is further configured to: and the top of the UV lifting screw rod is connected with a UV adjusting handle.

Through adopting above-mentioned technical scheme, the setting of UV adjustment handle can the person of facilitating the use operation UV lift lead screw.

The utility model is further configured to: the gold stamping mechanism comprises a gold stamping frame, a gold stamping plate, a gold stamping lifting cylinder and two gold stamping paper fixing frames, wherein the gold stamping plate is arranged on the gold stamping frame and used for heating, the gold stamping lifting cylinder is used for driving the gold stamping plate to lift, the gold stamping paper fixing frames are arranged on the gold stamping frame and located on two sides of the gold stamping plate, and a gold stamping paper winding shaft and a gold stamping paper discharging shaft are respectively arranged on the two gold stamping paper fixing frames.

By adopting the technical scheme, when the gold stamping machine works, the gold stamping paper can be straightened and kept flat by utilizing the gold stamping paper winding shaft and the gold stamping paper discharging shaft, and the gold stamping plate can be driven to be close to or far away from the station die by controlling the gold stamping lifting cylinder, so that the gold stamping operation is realized.

The utility model is further configured to: the gold stamping frame comprises a gold stamping base, a third guide rod vertically arranged on two sides of the gold stamping base, two connecting rods, a third limiting plate arranged at the top of the third guide rod and a gold stamping lifting screw rod running through the third limiting plate and parallel to the third guide rod, wherein a gold stamping sliding block is in threaded connection with the gold stamping lifting screw rod and two connecting rods, the third guide rod penetrates through two sides of the gold stamping sliding block, and a gold stamping plate, a gold stamping lifting cylinder and a gold stamping paper fixing frame are all installed on the gold stamping sliding block.

Through adopting above-mentioned technical scheme, when rotating gilt lift lead screw, gilt sliding block can make reciprocating motion along the direction of height of third guide arm to this altitude mixture control that can realize gilt board, gilt lift cylinder and gilt paper mount increases application range.

In summary, the utility model has the following advantages:

1. simultaneously, a plurality of printing stocks are printed, and the printing stocks are integrally processed, so that the production efficiency is high;

2. the silk-screen lifting seat can reciprocate along the height direction of the silk-screen lifting lead screw by rotating the lead screw adjusting handle, so that the silk-screen sliding block is driven to move up and down, the height adjusting range of the screen fixing support is enlarged, and the silk-screen lifting seat is suitable for station molds of different types or specifications;

3. through rotating gold stamping lifting screw rod, can make the gold stamping sliding block make reciprocating motion along the direction of height of third guide arm to this height adjustment that can realize gilding board, gold stamping lifting cylinder and gilding paper mount increases application range.

Drawings

FIG. 1 is a schematic view of the overall structure of the present embodiment;

FIG. 2 is a first schematic structural diagram of a screen printing mechanism according to the present embodiment;

FIG. 3 is a second schematic structural diagram of the screen printing mechanism according to the present embodiment;

FIG. 4 is a schematic structural view of a UV curing mechanism according to the present embodiment;

fig. 5 is a schematic structural diagram of the gold stamping mechanism in the embodiment.

Description of reference numerals: 1. a frame; 2. a multi-station turntable; 3. a screen printing mechanism; 31. a screen fixing component; 311. a screen fixing seat; 3111. a first guide bar; 3112. sliding blocks are printed in a silk screen mode; 3113. a fixing plate; 31131. a photoelectric limit switch; 3114. printing a lifting seat by silk screen; 3115. a first limit plate; 3116. silk-screen lifting screw rods; 117. a screw rod adjusting handle; 312. a screen fixing support; 313. a screen lifting cylinder; 32. a scraper assembly; 33. a scraper translation device; 331. a vertical plate; 332. a rodless cylinder; 333. a scraper connecting seat; 34. a scraper lifting device; 341. a travel bar; 342. moving the plate; 343. a scraper lifting cylinder; 4. a UV curing mechanism; 41. a UV fixing seat; 42. a second guide bar; 43. a second limiting plate; 44. UV lifting screw rod; 441. a UV slider; 4411. a UV curing module; 442. a UV adjustment handle; 5. a gold stamping mechanism; 51. a gold stamping frame; 511. a gold stamping base; 512. a third guide bar; 513. a third limiting plate; 514. gold stamping lifting screw rods; 5141. a gold stamping sliding block; 52. gold stamping plate; 521. a silica gel layer; 53. a gold stamping lifting cylinder; 54. fixing frame for gold stamping paper; 541. a gold stamping paper winding shaft; 542. a gold stamping paper discharging shaft; 7. a central control system; 8. a printing station.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

A multi-station automatic embossment cold stamping device is shown in figure 1 and comprises a rack 1, a multi-station turntable 2, a silk screen printing mechanism 3, a UV curing mechanism 4, a stamping mechanism 5, a rotary driving mechanism 6 and a central control system 7. The multi-station turntable 2 is provided with a plurality of printing stations 8 which are distributed circumferentially, and each printing station 8 is provided with a mounting hole for mounting a station die; a rotary driving mechanism (not shown in the figure) is arranged on the frame 1 and connected with the multi-station turntable 2, and the rotary driving mechanism can drive the multi-station turntable 2 to rotate so as to enable the product die to pass through the silk-screen printing mechanism 3, the UV curing mechanism 4 and the gold stamping mechanism 5 in sequence; and the central control system 7 is arranged on the frame 1 and is used for controlling the cooperative operation of the mechanisms.

As shown in fig. 2, the screen printing mechanism 3 includes a screen fixing assembly 31, a doctor assembly 32, a doctor translation device 33 for driving the doctor assembly 32 to translate left and right, and a doctor lifting device 34 for driving the doctor assembly 32 to lift up and down. The blade assembly 32 includes a blade and a return blade, among other things.

Specifically, as shown in fig. 3, the screen fixing assembly 31 includes a screen fixing seat 311, a screen fixing support 312 and a screen lifting cylinder 313, two first guide rods 3111 parallel to each other are vertically disposed on the screen fixing seat 311, the two first guide rods 3111 are slidably provided with the same screen printing sliding block 3112, a fixing plate 3113 is disposed on one side of the screen printing sliding block 3112 facing the center of the multi-station turntable 2, the screen fixing support 312 is mounted on the fixing plate 3113 and located above the station mold, a screen lifting seat 3114 fixed to the two first guide rods 3111 is mounted above the screen printing sliding block 3112, and the screen lifting cylinder 313 is fixed on the screen lifting seat 3114 and a piston rod thereof is connected to the screen printing sliding block 3112. Therefore, after the screen lifting cylinder 313 is activated, the screen printing slide block 3112 and the screen fixing support 312 reciprocate along the height direction of the first guide bar 3111, so that the screen fixing support 312 can approach or leave the station mold.

Further, the top of two first guide arms 3111 is connected with same first limiting plate 3115, threaded connection has silk screen printing lift lead screw 3116 that length direction and first guide arm 3111 paralleled on first limiting plate 3115, and silk screen printing lift lead screw 3116's lower extreme and silk screen printing lift seat 3114 threaded connection just pass silk screen printing sliding block 3112, and silk screen printing lift lead screw 3116's upper end just is located first limiting plate 3115 top fixedly connected with lead screw adjustment handle 117. Therefore, when the screw rod adjusting handle 117 is rotated, the silk screen lifting seat 3114 reciprocates along the height direction of the silk screen lifting screw rod 3116, so as to drive the silk screen sliding block 3112 to move up and down, increase the height adjusting range of the screen fixing support 312, and be suitable for different types or specifications of station molds.

As shown in fig. 2-3, the scraper translation device 33 includes vertical plates 331 fixed on both sides of the fixing plate 3113, a rodless cylinder 332 located between the two vertical plates 331, and a scraper connecting seat 333 for connecting the slider of the rodless cylinder 332 and the scraper assembly 32, and a photoelectric limit switch 31131 is installed on both sides of the slider of the rodless cylinder 332 and on the upper end of the fixing plate 3113. Therefore, after the rodless cylinder 332 is started, the slider moves left and right, and then the scraper connecting seat 333 and the scraper assembly 32 are driven to move left and right. The photoelectric limit switch 31131 is used for limiting the moving stroke of the slide block of the rodless cylinder 332 and improving the accuracy of operation.

The scraper lifting device 34 comprises four movable rods 341 distributed in a rectangular shape and penetrating through the scraper connecting seat 333, a movable plate 342 fixedly mounted on the top of the movable rod 341, and a scraper lifting cylinder 343 mounted on the scraper connecting seat 333 and having a piston rod connected with the movable plate 342, wherein the scraper assembly 32 is fixedly mounted at the lower end of the movable rod 341. Therefore, after the blade lifting cylinder 343 is activated, the movable rod 341 reciprocates the blade assembly 32 in the vertical direction thereof, thereby adjusting the height of the blade assembly 32.

As shown in fig. 4, the UV curing mechanism 4 includes a UV fixing seat 41, two vertical second guide rods 42 disposed on the UV fixing seat 41, a second limiting plate 43 connected to the tops of the two second guide rods 42, and a UV lifting screw 44 in threaded connection with the second limiting plate 43 and parallel to the second guide rods 42 in the length direction, a UV sliding block 441 is screwed on the UV lifting screw 44, the two second guide rods 42 are disposed on two sides of the UV sliding block 441 in a penetrating manner, a UV curing module 4411 disposed above the station mold is fixedly mounted on one side of the UV sliding block 441, and an ultraviolet light source is disposed in the UV curing module 4411 and is an LED. Therefore, when the UV elevating screw 44 is rotated, the UV slider 441 and the UV curing module 4411 reciprocate along the height direction of the second guide bar 42, thereby achieving height adjustment of the UV curing module 4411.

Further, in order to facilitate the user to operate the UV lifting screw 44, a UV adjusting handle 442 is connected to the top of the UV lifting screw 44 in this embodiment.

As shown in fig. 5, the gold stamping mechanism 5 includes a gold stamping frame 51, a gold stamping plate 52 installed on the gold stamping frame 51 and used for heating, a gold stamping lifting cylinder 53 used for driving the gold stamping plate 52 to lift, and gold stamping paper fixing frames 54 installed on the gold stamping frame 51 and located at two sides of the gold stamping plate 52, wherein the two gold stamping paper fixing frames 54 are respectively provided with a gold stamping paper winding shaft 541 and a gold stamping paper discharging shaft 542. When the gold stamping machine works, the gold stamping paper can be straightened and kept flat by using the gold stamping paper winding shaft 541 and the gold stamping paper discharging shaft 542, and the gold stamping plate 52 can be driven to be close to or far away from the station die by controlling the gold stamping lifting cylinder 53, so that the gold stamping operation is realized.

Specifically, the gold stamping frame 51 includes a gold stamping base 511, third guide rods 512 vertically arranged on two sides of the gold stamping base 511, a third limiting plate 513 connected to tops of the two third guide rods 512, and a gold stamping lifting screw 514 penetrating through the third limiting plate 513 and parallel to the third guide rods 512, the gold stamping lifting screw 514 is in threaded connection with a gold stamping sliding block 5141, the two third guide rods 512 are arranged on two sides of the gold stamping sliding block 5141 in a penetrating manner, and the gold stamping plate 52, the gold stamping lifting cylinder 53 and the gold stamping paper fixing frame 54 are all installed on the gold stamping sliding block 5141. Therefore, when the gold stamping lifting screw 514 is rotated, the gold stamping sliding block 5141 reciprocates along the height direction of the third guide rod 512, so that the height adjustment of the gold stamping plate 52, the gold stamping lifting cylinder 53 and the gold stamping paper fixing frame 54 can be realized, and the application range is enlarged.

It should be noted that a layer of silica gel layer 521 is adhered to the lower surface of the gold stamping plate 52, and the silica gel layer 521 is a soft material, so that the periphery of the image-text protrusions after silk printing can be completely hot stamped in place, and a relief three-dimensional effect is formed.

The working process and the beneficial effects of the utility model are as follows: during operation, each station mould is firstly installed on the corresponding printing station 8, then the printing stock is placed on the corresponding station mould, and finally the rotation speed of the rotary driving mechanism is set through the central control system 7, so that the station mould with the printing stock sequentially passes through the silk-screen printing mechanism 3, the UV curing mechanism 4 and the gold stamping mechanism 5 within a specified time, and the printing operation of the printing stock can be completed.

In conclusion, the operation can be used for simultaneously printing a plurality of printing stocks, and the printing stocks are processed in an integrated mode, so that the production efficiency is high.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the utility model, and any modifications, equivalents, improvements and the like made within the design concept of the present invention should be included in the scope of the present invention.

Claims (10)

1. The utility model provides an automatic relief (sculpture) cold perm golden equipment of multistation which characterized in that includes:

a frame (1);

the multi-station turntable (2) is provided with a plurality of printing stations (8) which are distributed circumferentially, and each printing station (8) is provided with a mounting hole for mounting a station die;

the silk-screen printing mechanism (3) is arranged on the rack (1) and corresponds to the station die;

the UV curing mechanism (4) is arranged on the rack (1) and corresponds to the station die;

the gold stamping mechanism (5) is arranged on the rack (1) and corresponds to the station die;

the rotary driving mechanism is arranged on the rack (1) and connected with the multi-station turntable (2), and can drive the multi-station turntable (2) to rotate so that a product die sequentially passes through the silk-screen printing mechanism (3), the UV curing mechanism (4) and the gold stamping mechanism (5);

and the central control system (7) is arranged on the frame (1) and is used for controlling the cooperative operation of the mechanisms.

2. The multi-station automatic embossment cold stamping equipment as claimed in claim 1, wherein: the screen printing mechanism (3) comprises a screen fixing assembly (31), a scraper assembly (32), a scraper translation device (33) for driving the scraper assembly (32) to translate left and right, and a scraper lifting device (34) for driving the scraper assembly (32) to lift.

3. The multi-station automatic embossment cold stamping equipment as claimed in claim 2, wherein: the fixed subassembly of half tone (31) includes half tone fixing base (311), half tone fixed bolster (312) and half tone lift cylinder (313), vertically on half tone fixing base (311) set up two first guide arms (3111) that are parallel to each other, two slide on first guide arm (3111) and have same silk screen printing sliding block (3112), one side at silk screen printing sliding block (3112) orientation multistation carousel (2) center is provided with fixed plate (3113), half tone fixed bolster (312) are installed on fixed plate (3113) and are located station mould top, the top of silk screen printing sliding block (3112) is provided with silk screen printing lift seat (3114) fixed with two first guide arms (3111), and silk screen printing lift cylinder (311313) are fixed on half tone lift seat (3114) and its piston rod is connected with silk screen printing sliding block (3112).

4. The multi-station automatic embossment cold stamping equipment as claimed in claim 3, wherein: two the top of first guide arm (3111) is connected with same first limiting plate (3115), threaded connection has silk screen printing lift lead screw (3116) that length direction and first guide arm (3111) paralleled on first limiting plate (3115), the lower extreme and the silk screen printing lift seat (3114) threaded connection of silk screen printing lift lead screw (3116) just pass silk screen printing sliding block (3112), the upper end of silk screen printing lift lead screw (3116) just is located first limiting plate (3115) top fixedly connected with lead screw adjustment handle (117).

5. The multi-station automatic embossment cold stamping equipment as claimed in claim 3, wherein: the scraper translation device (33) comprises vertical plates (331) arranged on two sides of a fixing plate (3113), a rodless cylinder (332) arranged between the two vertical plates (331) and a scraper connecting seat (333) used for connecting a sliding block of the rodless cylinder (332) with the scraper component (32), wherein photoelectric limit switches (31131) are arranged on two sides of the sliding block arranged at the rodless cylinder (332) and at the upper end of the fixing plate (3113).

6. The multi-station automatic embossment cold stamping equipment as claimed in claim 5, wherein: the scraper lifting device (34) comprises four moving rods (341) which are distributed in a rectangular shape and penetrate through the scraper connecting seat (333), a moving plate (342) arranged at the top of the moving rod (341) and a scraper lifting cylinder (343) which is arranged on the scraper connecting seat (333) and is connected with the moving plate (342) through a piston rod, and the scraper component (32) is fixedly arranged at the lower end of the moving rod (341).

7. The multi-station automatic embossment cold stamping equipment as claimed in claim 1, wherein: UV solidification mechanism (4) include UV fixing base (41), two vertical second guide arms (42) that set up on UV fixing base (41), connect two second limiting plate (43) at second guide arm (42) top and UV lift lead screw (44) that parallel with second limiting plate (43) threaded connection and length direction and second guide arm (42), threaded connection has UV sliding block (441) on UV lift lead screw (44), and two second guide arms (42) are worn to establish the both sides of UV sliding block (441), one side fixed mounting of UV sliding block (441) has UV solidification module (4411) that is located station mould top, UV solidification module (4411) have ultraviolet light source in, and this ultraviolet light source is LED.

8. The multi-station automatic embossment cold stamping equipment as claimed in claim 7, wherein: the top of the UV lifting screw rod (44) is connected with a UV adjusting handle (442).

9. The multi-station automatic embossment cold stamping equipment as claimed in claim 1, wherein: the gold stamping mechanism (5) comprises a gold stamping frame (51), a gold stamping plate (52) which is arranged on the gold stamping frame (51) and used for heating, a gold stamping lifting cylinder (53) which is used for driving the gold stamping plate (52) to lift, and gold stamping paper fixing frames (54) which are arranged on the gold stamping frame (51) and located on two sides of the gold stamping plate (52), wherein two gold stamping paper fixing frames (54) are respectively provided with a gold stamping paper winding shaft (541) and a gold stamping paper discharging shaft (542).

10. The multi-station automatic embossment cold stamping equipment as claimed in claim 9, wherein: gilt frame (51) include gilt base (511), vertically set up in third guide arm (512) of gilt base (511) both sides, connect two third limiting plate (513) at third guide arm (512) top and run through gilt lift lead screw (514) that third limiting plate (513) just parallels with third guide arm (512), threaded connection has gilt sliding block (5141) on gilt lift lead screw (514), two third guide arm (512) are worn to establish the both sides at gilt sliding block (5141), gilt board (52), gilt lift cylinder (53) and gilt paper mount (54) are all installed on gilt sliding block (5141).

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