CN211222512U - Gold stamping printing machine - Google Patents

Abstract

The utility model provides a gold stamping press, includes treats printed matter conveying mechanism, thermoprint membrane conveying mechanism, thermoprint membrane adjustment mechanism, impression roller lift control mechanism and frame, and thermoprint mechanism includes impression roller, printing roller and printing roller actuating mechanism, thermoprint membrane adjustment mechanism includes hold-in range, hold-in range actuating mechanism, first liftable dancer rools, second liftable dancer rools, and the hold-in range has left ascending and descending district and right ascending and descending district, and first liftable dancer rools, second liftable dancer rools are installed respectively on the hold-in range and first liftable dancer rools, second liftable dancer rools are located left ascending and descending district, right ascending and descending district respectively, and thermoprint membrane conveying mechanism's thermoprint membrane passes through in proper order between second liftable dancer rools, the impression roller of thermoprint mechanism and the printing roller, first liftable dancer rools. The utility model discloses the contrast is owing to be equipped with thermoprint membrane adjustment mechanism, consequently can adjust according to actual conditions, utilizes the thermoprint membrane effectively, adjusts convenient and fast, excellent in use effect.

Description

Gold stamping printing machine

Technical Field

The utility model relates to a stamping equipment, more specifically say and relate to a can effectively utilize gilt printing machine of thermoprint membrane.

Background

Along with the improvement of living standard of people, better requirements are put forward on the package of products, and the package design becomes more and more exquisite. Hot stamping, commonly called "gold stamping", has a long history in China, the essence of hot stamping is transfer printing, which is a process of transferring patterns on a hot stamping film (alumite) to a printing stock under the action of heat and pressure. However, the rapid development and wide application of the hot stamping technology are still in the past decade. Hot stamping is divided into traditional hot stamping and emerging cold stamping. Both devices can be mostly shared. The equipment that implements stamping is referred to herein as a gilding press.

The hot stamping technology can improve the surface effect of a packaged product, is rapidly developed in recent years, but cannot meet the requirements of fine characters, lines and dots on the packaged product, and has the defects of high energy consumption and certain defects due to the fact that the hot stamping technology needs to be heated and pressurized. The cold stamping technology is a new technological achievement which is applied first in European and American printing industries in recent years, can directly realize cold stamping on the basis of the existing printing equipment, and can finish the transfer of the electrochemical aluminum foil without heating and pressurizing. During cold stamping, transfer glue (such as UV or self-drying transfer glue) is printed at a position needing cold stamping on a printing stock, then a hot stamping film (alumite) is stained on paper under the action of pressure, and then drying is carried out.

At present, a gold stamping printing machine (mainly a cold stamping machine) is generally provided with a hot stamping film storage device with a swing rod type structure, namely, the middle part of a swing rod frame is fixed, and during work, the storage and feeding are realized by swinging around a fixed point at two ends of the swing rod frame. However, with the increase of the swing angle, the tangential speed change of the swing rod of the stamping machine is larger and larger, the feeding speed is not controlled accurately, so that the speeds of the hot stamping film and the printing stock are asynchronous, and the hot stamping effect is influenced. Meanwhile, the swinging angle of the swing rod is limited, so that the lengths of storing and feeding materials are not too long, and the gold stamping process with a large breadth cannot be performed. Moreover, since the area that generally requires gold stamping is small, a large amount of the stamping film is wasted.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a gilt printing machine, this kind of gilt printing machine can utilize the thermoprint membrane effectively, adjusts convenient and fast, excellent in use effect. The technical scheme is as follows:

the utility model provides a gold stamping press, including treating printed matter conveying mechanism, thermoprint membrane conveying mechanism, cold stamping mechanism, thermoprint membrane adjustment mechanism, impression roller lifting control mechanism and frame, treat printed matter conveying mechanism, thermoprint membrane conveying mechanism, thermoprint membrane adjustment mechanism, impression roller lifting control mechanism installs in the frame respectively, thermoprint mechanism includes the impression roller, printing roller and printing roller driving mechanism, printing roller driving mechanism connects printing roller and drives printing roller and rotate, impression roller and printing roller set up relatively, thermoprint membrane conveying mechanism and printed matter conveying mechanism pass through respectively between impression roller and the printing roller of thermoprint mechanism, impression roller lifting control mechanism drives the impression roller and rises often and leave printing roller, descend often and carry out the thermoprint processing with printing roller cooperation, its characterized in that: thermoprint membrane adjustment mechanism includes the hold-in range, hold-in range actuating mechanism, first liftable adjusting roller, second liftable adjusting roller, hold-in range actuating mechanism drives the hold-in range motion, the hold-in range has left lifting area and right lifting area, first liftable adjusting roller, second liftable adjusting roller is installed respectively on the hold-in range and first liftable adjusting roller, second liftable adjusting roller is located left lifting area respectively, right lifting area, thermoprint membrane conveying mechanism's thermoprint membrane passes through second liftable adjusting roller in proper order, between thermoprint mechanism's embossing roller and the printing roller, first liftable adjusting roller. Due to the structural design, when the synchronous belt driving mechanism drives the synchronous belt to move, the first lifting adjusting roller positioned in the left lifting area ascends, and the second lifting adjusting roller positioned in the right lifting area descends; on the contrary, the first lifting adjusting roller descends, and the second lifting adjusting roller ascends. The first lifting adjusting roller and the second lifting adjusting roller have the same movement speed and opposite movement directions. After finishing a thermoprint processing step, the embossing roller lifting control mechanism drives the embossing roller to lift up and leave the printing roller, then the synchronous belt driving mechanism of the thermoprint film adjusting mechanism drives the synchronous belt to move, so that the first liftable adjusting roller descends for a certain distance, and the second liftable adjusting roller rises for the same distance, so that the thermoprint film between the embossing roller and the printing roller retreats for a certain distance, and then the next thermoprint processing step utilizes the area which has been used by the previous thermoprint processing step to perform thermoprint. After finishing the hot stamping processing step, the stamping roller lifting control mechanism drives the stamping roller to lift up and leave the stamping roller, then the synchronous belt driving mechanism of the hot stamping film adjusting mechanism drives the synchronous belt to move reversely, so that the first lifting adjusting roller rises for a certain distance to return to the original position, and the second lifting adjusting roller falls for the same distance to return to the original position. The hot stamping can be completed by effectively utilizing the hot stamping film in such a way repeatedly.

The preferred scheme, thermoprint membrane adjustment mechanism still includes a plurality of first deflector rolls, and the hold-in range cover is on these first deflector rolls, hold-in range actuating mechanism includes first motor, first drive wheel, first driven wheel, first belt, and first drive wheel is installed on the first output shaft of first motor, and first driven wheel and a first deflector roll are coaxial fixed, and first belt cover is on first drive wheel, first driven wheel. The first motor drives the first driven wheel to rotate through the first driving wheel, so that the synchronous belt is driven to move.

Better scheme, the thermoprint mechanism still includes liftable installation axle, the embossing roll is installed on the liftable installation axle, embossing roll lift control mechanism includes cam, cam drive mechanism, and cam drive mechanism connects the cam, and the cam withstands liftable installation axle. The height of the lifting installation shaft is controlled by the cam, so that the height of the embossing roller is controlled, the embossing roller descends to the lowest position from an initial position (at the moment, the embossing roller is in a high position, and the embossing roller and the rubber roller are in a separation state) and is matched with the rubber roller to complete hot stamping processing (at the moment, the embossing roller is in a low position, and the embossing roller and the rubber roller are in a folding matching state), or the embossing roller ascends to the initial position from the folding matching state.

Preferably, the cam driving mechanism comprises a second motor, a second driving wheel, a second driven wheel and a second belt, the second driving wheel is mounted on a second output shaft of the second motor, the second driven wheel and the cam are coaxially fixed on the rack, and the second belt is sleeved on the second driving wheel and the second driven wheel. The second motor drives the second driven wheel to rotate through the second driving wheel, so that the cam is driven to rotate.

Preferably, the embossing roller lifting control mechanism further comprises a cylinder, wherein a piston shaft of the cylinder vertically faces downwards and is connected with the lifting mounting shaft.

Better scheme, thermoprint membrane conveying mechanism is including unreeling the axle, unreeling axle actuating mechanism, rolling axle actuating mechanism, a plurality of second deflector roll, unreels axle, a plurality of second deflector roll, rolling axle and distributes according to thermoprint membrane direction of motion in proper order, unreels axle actuating mechanism and connects unreel the axle and drive and unreel the axle and rotate, and rolling axle actuating mechanism connects the rolling axle and drives the rolling axle rotation.

More preferred scheme, rolling axle actuating mechanism includes third motor, third drive wheel, third follower, third belt, and the third drive wheel is installed on the third output shaft of third motor, and the third follower is coaxial fixed with the rolling axle, and the third belt cover is on third drive wheel, third follower. The third motor drives the third driven wheel to rotate through the third driving wheel, so that the rolling shaft is driven to rotate.

More preferably, the unreeling shaft driving mechanism comprises a fourth motor, a fourth driving wheel, a fourth driven wheel and a fourth belt, the fourth driving wheel is installed on a fourth output shaft of the fourth motor, the fourth driven wheel is coaxially fixed with the unreeling shaft, and the fourth belt is sleeved on the fourth driving wheel and the fourth driven wheel. The fourth motor drives the fourth driven wheel to rotate through the fourth driving wheel, so that the unwinding shaft is driven to rotate.

Preferably, the to-be-printed matter conveying mechanism comprises a plurality of conveying belts which are sequentially arranged according to the conveying path of the to-be-printed matter.

According to a preferred scheme, the printing roller driving mechanism comprises a fifth motor, a fifth driving wheel, a fifth driven wheel and a fifth belt, the fifth driving wheel is installed on a fifth output shaft of the fifth motor, the fifth driven wheel and the printing roller are coaxially fixed, and the fifth belt is sleeved on the fifth driving wheel and the fifth driven wheel. The fifth motor drives the fifth driven wheel to rotate through the fifth driving wheel, so that the printing roller is driven to rotate.

According to a preferred scheme, the gold stamping printing machine further comprises a control device, and the control device is electrically connected with the printing roller driving mechanism, the unreeling shaft driving mechanism, the reeling shaft driving mechanism, the stamping roller lifting control mechanism and the synchronous belt driving mechanism respectively.

Compared with the prior art, the hot stamping film adjusting mechanism has the advantages that the hot stamping film adjusting mechanism is arranged, so that the hot stamping film adjusting mechanism can be adjusted according to actual conditions, the hot stamping film is effectively utilized, the adjustment is convenient and fast, and the using effect is good; and embossing roller lifting control mechanism can ensure that embossing roller and rubber roller contact when more steady, let between the two treat that printed matter and thermoprint membrane atress are more even, be difficult to damage, guarantee the quality of product more effectively.

Drawings

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

fig. 2 is a schematic block diagram of the circuitry of the preferred embodiment shown in fig. 1.

Detailed Description

As shown in fig. 1 and 2, the gold stamping press in the preferred embodiment includes a control device (not visible in fig. 1), a to-be-printed matter conveying mechanism 1, a hot stamping film conveying mechanism 2, a hot stamping mechanism 3, a hot stamping film adjusting mechanism 4, a stamping roller lifting control mechanism 5, and a frame 6, wherein the to-be-printed matter conveying mechanism 1, the hot stamping film conveying mechanism 2, the hot stamping mechanism 3, the hot stamping film adjusting mechanism 4, and the stamping roller lifting control mechanism 5 are respectively installed on the frame 6. In this embodiment, the bronzing printing machine performs cold stamping processing.

The to-be-printed matter conveying mechanism 1 comprises 3 conveying belts 101 which are sequentially arranged according to a to-be-printed matter conveying path.

Thermoprint membrane conveying mechanism 2 is including unreeling axle 201, unreeling axle actuating mechanism 202, rolling axle 203, rolling axle actuating mechanism 204, a plurality of second deflector roll 205, unreels axle 201, a plurality of second deflector roll 205, rolling axle 203 and distributes according to thermoprint membrane direction of motion in proper order, unreels axle actuating mechanism 202 and connects unreeling axle 201 and drive and unreel the axle 201 and rotate, and rolling axle actuating mechanism 204 connects rolling axle 203 and drives rolling axle 203 and rotate.

The winding shaft driving mechanism 204 comprises a third motor 2041, a third driving wheel 2042, a third driven wheel 2043 and a third belt 2044, the third driving wheel 2042 is mounted on a third output shaft of the third motor 2041, the third driven wheel 2043 is coaxially fixed with the winding shaft 203, and the third belt 2044 is sleeved on the third driving wheel 2042 and the third driven wheel 2043. The third motor 2041 drives the third driven wheel 2043 to rotate through the third driving wheel 2042, so as to drive the winding shaft 203 to rotate.

The unreeling shaft driving mechanism 202 comprises a fourth motor 2021, a fourth driving wheel 2022, a fourth driven wheel 2023 and a fourth belt 2024, the fourth driving wheel 2022 is mounted on a fourth output shaft of the fourth motor 2021, the fourth driven wheel 2023 is coaxially fixed with the unreeling shaft 201, and the fourth belt 2024 is sleeved on the fourth driving wheel 2022 and the fourth driven wheel 2023. The fourth motor 2021 drives the fourth driven wheel 2023 to rotate through the fourth driving wheel 2022, thereby driving the unwinding shaft 201 to rotate.

The hot stamping mechanism 3 comprises an embossing roller 301, a printing receiving roller 302, a printing receiving roller driving mechanism 303 and a lifting installation shaft 304, the printing receiving roller driving mechanism 303 is connected with the printing receiving roller 302 and drives the printing receiving roller 302 to rotate, the embossing roller 301 and the printing receiving roller 302 are arranged relatively, the hot stamping film conveying mechanism 2 and the printing product conveying mechanism 1 pass through the embossing roller 301 and the printing receiving roller 302 of the hot stamping mechanism 3 respectively, the embossing roller lifting control mechanism 5 drives the embossing roller 301 to lift up and leave the printing receiving roller 302, and the embossing roller lifting control mechanism 5 descends to be matched with the printing receiving roller 302 to perform hot stamping processing. The platen roller 301 is a heated platen roller and can be raised and lowered, and the platen roller 302 is a fixed roller and only rotates.

The printing roller driving mechanism 303 comprises a fifth motor 3031, a fifth driving wheel 3032, a fifth driven wheel 3033 and a fifth belt 3034, wherein the fifth driving wheel 3032 is mounted on a fifth output shaft of the fifth motor 3031, the fifth driven wheel 3033 is coaxially fixed with the printing roller 302, and the fifth belt 3034 is sleeved on the fifth driving wheel 3032 and the fifth driven wheel 3033. The fifth motor 3031 drives the fifth driven wheel 3033 to rotate through the fifth driving wheel 3032, so as to drive the printing roller 302 to rotate.

The embossing roller 301 is mounted on a liftable mounting shaft 304.

Thermoprint membrane adjustment mechanism 4 includes hold-in range 401, hold-in range actuating mechanism 402, first liftable adjusting roller 403, second liftable adjusting roller 404, a plurality of first deflector roll 405, hold-in range 401 cover is on these first deflector roll 405, hold-in range actuating mechanism 402 drives hold-in range 401 motion, hold-in range 401 has left lift district 4011 and right lift district 4012, first liftable adjusting roller 403, second liftable adjusting roller 404 is installed respectively on hold-in range 401 and first liftable adjusting roller 403, second liftable adjusting roller 404 is located left lift district 4011 respectively, right lift district 4012, thermoprint membrane conveying mechanism 2's thermoprint membrane passes through second liftable adjusting roller 404 in proper order, between thermoprint mechanism 3's platen roller 301 and the printing roller 302, first liftable adjusting roller 403. Due to the structural design, when the synchronous belt driving mechanism 402 drives the synchronous belt 401 to move, the first lifting adjusting roller 403 positioned in the left lifting area 4011 rises, and the second lifting adjusting roller 404 positioned in the right lifting area 4012 falls; on the contrary, the first liftable adjusting roller 403 descends, and the second liftable adjusting roller 404 ascends. The first liftable adjusting roller 403 and the second liftable adjusting roller 404 have the same movement speed and opposite movement directions.

The synchronous belt driving mechanism 402 comprises a first motor 4021, a first driving wheel 4022, a first driven wheel 4023 and a first belt 4024, the first driving wheel 4022 is installed on a first output shaft of the first motor 4021, the first driven wheel 4023 is coaxially fixed with a first guide roller 405 (the first guide roller 405 is located above the first driving wheel 4022), and the first belt 4024 is sleeved on the first driving wheel 4022 and the first driven wheel 4023. The first motor 4021 drives the first driven wheel 4023 to rotate through the first driving wheel 4022, thereby driving the timing belt 401 to move.

The embossing roller lifting control mechanism 5 comprises a cam 501, a cam driving mechanism 502 and a cylinder 503, wherein a piston shaft of the cylinder 503 is vertically downward and is connected with the lifting mounting shaft 304, the cam driving mechanism 502 is connected with the cam 501, and the cam 501 abuts against the lifting mounting shaft 304. The height of the liftable mounting shaft 304 is controlled by matching the cylinder 503 and the cam 501, so that the height of the embossing roller 301 is controlled, the embossing roller 301 descends to the lowest position from the initial position (at the moment, the embossing roller 301 is at a high position, and the embossing roller 301 and the rubber roller are in a separated state) and completes hot stamping processing by matching with the rubber roller (at the moment, the embossing roller 301 is at a low position, and the embossing roller 301 and the rubber roller are in a closed matching state), or the embossing roller ascends to the initial position from the closed matching state, the contact between the embossing roller 301 and the rubber roller can be more stable due to the pressure of the cylinder 503 and the supporting force of the cam 501 in the descending motion process, a to-be-printed product and a hot stamping film between the embossing roller and the rubber roller are not easy to.

The cam driving mechanism 502 comprises a second motor 5021, a second driving wheel 5022, a second driven wheel 5023 and a second belt 5024, the second driving wheel 5022 is mounted on a second output shaft of the second motor 5021, the second driven wheel 5023 and the cam 501 are coaxially fixed on the rack, and the second belt 5024 is sleeved on the second driving wheel 5022 and the second driven wheel 5023. The second motor 5021 drives the second driven wheel 5023 to rotate through the second driving wheel 5022, so as to drive the cam 501 to rotate.

The control device is respectively and electrically connected with a fifth motor 3031 of the printing roller driving mechanism 303, a fourth motor 2021 of the unreeling shaft driving mechanism 202, a third motor 2041 of the reeling shaft driving mechanism 204, a cylinder 503 and a second motor 5021 of the platen roller lifting control mechanism 5 and a first motor 4021 of the synchronous belt driving mechanism 402.

The first motor 4021, the second motor 5021, the third motor 2041 and the fourth motor 2021 are all servo motors, and the fifth motor 3031 is a common alternating current motor. In this embodiment, the control device is a SIMATIC S7-1200 modular controller from Siemens.

The following operation is described:

the method comprises the steps that UV curing glue is printed on a gold stamping part on paper by a gold stamping printer, the paper printed with the UV curing glue is conveyed to a paper receiving table of the gold stamping printer, the paper is positioned by a front gauge and a front gauge, the positioned paper is conveyed to the position below an embossing roller 301, when a gold stamping area of a gold stamping film moves to the position above the paper, a motor drives a cam 501 to rotate, the embossing roller 301 is driven to press downwards, the gold stamping film is pressed and rolled with the UV glue on the paper, when all the gold stamping areas are rolled, the motor drives the cam 501 to rotate, the embossing roller 301 is enabled to be lifted to the original position, the gold foil on the gold stamping film is adhered to the upper surface of a UV curing glue layer of the paper, gold stamping is completed, and finally the paper is conveyed to a UV lamp.

The following introduces the thermoprinting film adjustment process:

after finishing the one-time hot stamping processing step, the control device controls the stamping roller lifting control mechanism 5 to drive the stamping roller 301 to lift and leave the stamping roller 302, then the control device controls the synchronous belt driving mechanism 402 of the hot stamping film adjusting mechanism 4 to drive the synchronous belt 401 to move, so that the first lifting adjusting roller 403 descends for a certain distance, the second lifting adjusting roller 404 rises for the same distance, so that the hot stamping film between the stamping roller 301 and the stamping roller 302 retreats for a certain distance, and then the next hot stamping processing step carries out hot stamping by utilizing the area which can be utilized by the hot stamping film used in the last hot stamping processing step. After finishing the hot stamping processing step, the control device controls the platen roller lifting control mechanism 5 to drive the platen roller 301 to lift and leave the printing roller 302, and then the control device controls the synchronous belt driving mechanism 402 of the hot stamping film adjusting mechanism 4 to drive the synchronous belt 401 to move reversely, so that the first lifting adjusting roller 403 rises a distance to return to the original position, and the second lifting adjusting roller 404 falls a same distance to return to the original position, meanwhile, the fourth motor 2021 of the unreeling shaft driving mechanism 202 and the third motor 2041 of the reeling shaft driving mechanism 204 work to drive the hot stamping film to move leftwards until the unused area of the hot stamping film is located between the platen roller 301 and the printing roller 302. The hot stamping can be completed by effectively utilizing the hot stamping film in such a way repeatedly.

Through experiments, the hot stamping film adjusting mechanism 4 and the stamping roller lifting control mechanism 5 are particularly suitable for cold stamping machines, but also can be used for hot stamping machines, so that the application range is wide.

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 gold stamping press, including treating printed matter conveying mechanism, thermoprint membrane conveying mechanism, thermoprint membrane adjustment mechanism, impression roller lifting control mechanism and frame, treat printed matter conveying mechanism, thermoprint membrane conveying mechanism, thermoprint membrane adjustment mechanism, impression roller lifting control mechanism installs in the frame respectively, thermoprint mechanism includes the impression roller, printing roller and printing roller driving mechanism, printing roller driving mechanism connects printing roller and drives printing roller and rotate, impression roller and printing roller set up relatively, thermoprint membrane conveying mechanism and printed matter conveying mechanism pass through respectively between impression roller and the printing roller of thermoprint mechanism, impression roller lifting control mechanism drives the impression roller and rises often and leave printing roller, descend often and carry out the thermoprint processing with printing roller cooperation, its characterized in that: thermoprint membrane adjustment mechanism includes the hold-in range, hold-in range actuating mechanism, first liftable adjusting roller, second liftable adjusting roller, hold-in range actuating mechanism drives the hold-in range motion, the hold-in range has left lifting area and right lifting area, first liftable adjusting roller, second liftable adjusting roller is installed respectively on the hold-in range and first liftable adjusting roller, second liftable adjusting roller is located left lifting area respectively, right lifting area, thermoprint membrane conveying mechanism's thermoprint membrane passes through second liftable adjusting roller in proper order, between thermoprint mechanism's embossing roller and the printing roller, first liftable adjusting roller.

2. The gold printing press of claim 1, wherein: thermoprint membrane adjustment mechanism still includes a plurality of first deflector rolls, and the hold-in range cover is on these first deflector rolls, hold-in range actuating mechanism includes first motor, first drive wheel, first follower, first belt, and first drive wheel is installed on the first output shaft of first motor, and first follower and a first deflector roll are coaxial fixed, and first belt cover is on first drive wheel, first follower.

3. The gold printing press of claim 1, wherein: the stamping mechanism further comprises a lifting installation shaft, the stamping roller is installed on the lifting installation shaft, the stamping roller lifting control mechanism comprises a cam and a cam driving mechanism, the cam driving mechanism is connected with the cam, and the cam abuts against the lifting installation shaft.

4. The gold printing press of claim 3, wherein: the cam driving mechanism comprises a second motor, a second driving wheel, a second driven wheel and a second belt, the second driving wheel is installed on a second output shaft of the second motor, the second driven wheel and the cam are coaxially fixed on the rack, and the second belt is sleeved on the second driving wheel and the second driven wheel.

5. The gold printing press of claim 3, wherein: the embossing roller lifting control mechanism further comprises a cylinder, a piston shaft of the cylinder vertically faces downwards, and the piston shaft is connected with the lifting installation shaft.

6. The gold printing press as recited in any one of claims 1-4, characterised in that: thermoprint membrane conveying mechanism is including unreeling the axle, unreeling axle actuating mechanism, rolling axle actuating mechanism, a plurality of second deflector roll, unreels axle, a plurality of second deflector rolls, rolling axle and distributes according to thermoprint membrane direction of motion in proper order, unreels axle actuating mechanism and connects unreel axle and drive and unreel the axle and rotate, and rolling axle actuating mechanism connects the rolling axle and drives the rolling axle and rotate.

7. The gold stamping press of claim 6, wherein: the winding shaft driving mechanism comprises a third motor, a third driving wheel, a third driven wheel and a third belt, the third driving wheel is installed on a third output shaft of the third motor, the third driven wheel is coaxially fixed with the winding shaft, the third belt is sleeved on the third driving wheel and the third driven wheel, and the third motor drives the third driven wheel to rotate through the third driving wheel, so that the winding shaft is driven to rotate.

8. The gold stamping press of claim 6, wherein: the unwinding shaft driving mechanism comprises a fourth motor, a fourth driving wheel, a fourth driven wheel and a fourth belt, the fourth driving wheel is installed on a fourth output shaft of the fourth motor, the fourth driven wheel is coaxially fixed with the unwinding shaft, the fourth belt is sleeved on the fourth driving wheel and the fourth driven wheel, and the fourth motor drives the fourth driven wheel to rotate through the fourth driving wheel so as to drive the unwinding shaft to rotate.

9. The gold printing press of claim 1, wherein: the to-be-printed matter conveying mechanism comprises a plurality of conveying belts which are sequentially arranged according to a to-be-printed matter conveying path.

10. The gold printing press of claim 1, wherein: the printing roller driving mechanism comprises a fifth motor, a fifth driving wheel, a fifth driven wheel and a fifth belt, the fifth driving wheel is installed on a fifth output shaft of the fifth motor, the fifth driven wheel is coaxially fixed with the printing roller, the fifth belt is sleeved on the fifth driving wheel and the fifth driven wheel, and the fifth motor drives the fifth driven wheel to rotate through the fifth driving wheel, so that the printing roller is driven to rotate.

Images