CN208682319U - Gilding press - Google Patents

Abstract

The utility model discloses a kind of gilding press, its key points of the technical solution are that including feeding device, gold stamping device, material collecting device, gold stamping device includes organic frame, stent, movable mold, foil paper feeding device, driving part, stent is provided with multiple, and it slides and connects with rack, rack is provided with ratchet bar, and stent is rotatably connected to ratchet-gear wheel, is additionally provided with controller and detection probe in rack；Foil paper feeding device includes several feeding mounting racks, stent is rotatably connected to driving spiral shell axis, the quantity of the quantity and feeding mounting rack that drive spiral shell axis is consistent, one driving spiral shell axis is spirally connected with a feeding mounting rack, is also rotatably connected on feeding mounting rack for bypassing the guide roller below movable mold for foil paper.The gilding press using flexible degree is high, can effectively improve the utilization rate to foil paper, and the stamping operation for needing to carry out different location or different colours is conducive to the accurate precision for improving thermoprint position without repositioning.

Description

Gilding press

Technical field

The utility model relates to printing equipment technology, more specifically, it relates to a kind of gilding press.

Background technique

It is gold stamping, also make " thermoprint ".A kind of printing decoration technique.Gold stamping type matrix is heated, foil is applied, is imprinted out on printed matter Golden text or pattern.It is gold stamping using more and more extensive with the rapid development of stamping systems and packaging industry.

Existing gilding press includes the movable mold and use of the stent being fixed on the rack and sliding connection on the rack In driving movable mold driving part and the foil paper feeding device of foil paper can be conveyed, wherein stent, movable mold, foil paper Feeding device is arranged with the units specification of gilding press, is only used for carrying out gold stamping behaviour to the product to be printed within the scope of certain specification Make, and product to be printed is excessive, which can not execute gold stamping operation, and product to be printed is too small, not have after primary gold stamping operation Having the foil paper of design text or area of the pattern just will not be used, and the utilization rate to foil paper is greatly reduced.And to one to Print product needs to carry out to need repeatedly replacement gilding press when the stamping operation of different location or different colours, and duplicate replacement Position not only reduces the accurate precision in thermoprint position, further increases the amount of labour of worker, is unfavorable for improving working efficiency.

Utility model content

In view of the deficienciess of the prior art, the gilding press makes the purpose of this utility model is to provide a kind of gilding press With degree of flexibility height, the utilization rate to foil paper can be effectively improved, and for needing to carry out different location or different colours Stamping operation without being repositioned, be conducive to the accurate precision for improving thermoprint position.

To achieve the above object, the utility model provides following technical solution: gilding press, includes to be printed for discharging The feeding device of coiled strip and the gold stamping device for treating the progress thermoprint of printed volume material and the rewinding for collecting coiled strip to be printed Device, the feeding device are located at the feed end of gold stamping device, and the material collecting device is located at the discharge end of gold stamping device, conveying warp The coiled strip to be printed of gold stamping device is tensioned between feeding device and material collecting device, and the gold stamping device includes organic frame and sets The stent and the sliding movable mold being connected in stent and the foil paper feeding being arranged in stent set on the rack fill It sets and the driving part for driving movable mold close to or far from stent, the movable mold is located at the top of stent, institute The top that foil paper feeding device is located at movable mold is stated, the driving part is located at below stent, and the driving part includes The driving spindle being axially rotationally connected in stent and driving host and axial sliding for driving driving spindle connect Driving slider in stent, described driving slider one end are connect with movable mold, and the other end passes through setting after running through stent There is connector to connect with driving spindle, the eccentric rod for being rotatablely connected with connector is provided in the driving spindle, it is described The central axis of eccentric rod and the centerline axis parallel of driving spindle and eccentric setting, described connector one end and eccentric rod rotate Connection, the other end is hinged with driving slider, and the connector is set with the hinged axial direction of driving slider and the axially parallel of eccentric rod It sets, driving host drives in driving spindle rotation process, is able to drive driving slider edge with the connector of eccentric rod rotation connection The sliding of its length direction；

The stent be provided with it is multiple, and with rack slide connect, the sliding side of the stent on the rack To the length direction for rack, it is provided with ratchet bar in the rack along its length, axially rotation connects in the stent It is connected to the ratchet-gear wheel engaged with ratchet bar, it is sliding along the length direction of ratchet bar that ratchet-gear wheel is able to drive stent during rotation It moves, the foil paper feeding device and movable mold and the quantity of driving part setting are consistent with the quantity of stent, institute State and be additionally provided with controller and the detection probe for detecting hot stamping pattern position on coiled strip to be printed in rack, the controller with Detection probe and the communication connection of feeding device and gold stamping device and material collecting device；

The foil paper feeding device includes the feeding mounting rack with stent sliding connection, and the feeding mounting rack is solid Glide direction on cover half is the width direction of rack, and the feeding mounting rack is provided with several, each feeding mounting rack edge The width direction of rack is arranged, and the driving spiral shell axis for driving feeding mounting rack, institute are rotatably connected in the stent It states driving spiral shell axis and is also equipped with several, and the quantity of spiral shell axis and the quantity of feeding mounting rack is driven to be consistent, each drive It is arranged in parallel between dynamic spiral shell axis, and drives the length direction of spiral shell axis for glide direction of the feeding mounting rack in stent, one Driving spiral shell axis is spirally connected with a feeding mounting rack, and the avoid holes for avoiding the driving spiral shell axis are provided on remaining feeding mounting rack, Driving spiral shell axis feeding mounting rack in rotation process can slide along the width direction of rack；

It is rotatably connected on the feeding mounting rack and puts foil axis and foil closing axis, the length direction for putting foil axis and foil closing The length direction of axis is arranged in parallel, and magnetic powder brake and the receipts for driving foil closing axis to rotate are provided on the feeding mounting rack Foil motor, the foil shaft end portion of putting are fixedly connected with the output end of magnetic powder brake, and foil closing motor is driving the rotation of foil closing axis Magnetic powder brake can be tensioned the foil paper put between foil axis and foil closing axis in the process；

It is also rotatably connected on the feeding mounting rack for bypassing the guide roller below movable mold, the guiding for foil paper The length direction of roller and the length direction of foil closing axis are arranged in parallel, and the guide roller is provided with two, and two disposed in parallel to lead The opposite sides of movable mold is located to roller.

The utility model is further arranged to: rack width two sides are provided with ratchet bar, and two ratchet bars are parallel It is arranged, is axially rotatably connected to rotation axis, the length direction of the rotation axis and the length direction of ratchet bar in the stent It is vertically arranged, there are two the ratchet-gear wheel is also provided with, and the corresponding two ratchet bars setting of two ratchet-gear wheels, two ratchet-gear wheels are same Axis is fixed on the rotating shaft, and the rotation axis end is provided with the handwheel for driving rotation axis；

The grip block for gripping with rack and the folder for driving grip block are additionally provided in the stent Hold cylinder.

The utility model is further arranged to: the movable mold is connected with several metals towards sliding on the end face of stent Printing plate, the quantity of the metallic plate and the quantity of feeding mounting rack are consistent, and the glide direction of each metallic plate is machine The width direction of frame is provided with the fastening handle that can be fixed on metallic plate in movable mold on the metallic plate.

The utility model is further arranged to: the movable mold is provided with for for the perforative perforation of driving slider, described The upper limit ring and lower limit ring of the two sides above and below movable mold, the outer diameter of the lower limit ring are bolted in driving slider Greater than the internal diameter of perforation, abut between the upper limit ring and movable mold by pressing spring；

The upper surface of the movable mold is provided with for the boarding hole for being embedded in by pressing spring, and the boarding hole and perforation are same Axis setting, the internal diameter of the boarding hole are adapted with by the outer diameter of pressing spring.

The utility model is further arranged to: the both ends of the driving spindle length direction are respectively connected with driving slider, institute It states connector and there are two eccentric rod is respectively provided with, the central axis of driving spindle both ends eccentric rod is overlapped setting, driving master Machine drives in driving spindle rotation process, is able to drive the synchronous cunning of two driving sliders with two connectors of two eccentric rods rotation connection It moves；

Described driving spindle one end is provided with two driving sliders, and two driving sliders are arranged in parallel, two driving sliders Between one end far from movable mold be fixedly connected with for the articulation piece hinged with connector, described articulation piece one end and two drives Moving slide-bar is fixedly connected, and the other end is hinged with connector, the axial direction of the hinged axial direction and eccentric rod of the articulation piece and connector It is arranged in parallel, driving host drives in driving spindle rotation process, passes through articulation piece band with the connector of eccentric rod rotation connection Dynamic two driving slider synchronization-slidings.

The utility model is further arranged to: foil can be enabled by clamping conveying foil paper by being provided on the feeding mounting rack Clamping conveying assembly of the paper roll on foil closing axis, the clamping conveying assembly includes that can be held on foil paper opposite sides Drive roll and driven voller, the drive roll and driven voller are rotationally connected on feeding mounting rack, and the length side of drive roll It being arranged in parallel to the length direction with driven voller, the length direction of the length direction and foil closing axis of the drive roll is arranged in parallel, The output end and drive roll of the foil closing motor are sequentially connected, and the drive roll and foil closing axis are sequentially connected.

The utility model is further arranged to: the clamping conveying assembly further includes having positioned at drive roll and driven voller length Two pieces of conveying mounting plates at direction both ends and the conveying support rod being supported between two pieces of conveying mounting plates, the driven voller packet The mandrel that both ends are rotatably connected on two pieces of conveying mounting plates is included, is provided on two pieces of conveying mounting plates for sliding for mandrel The adjusting sliding slot of shifting, the length direction that driven voller edge adjusts sliding slot can be close to or far from drive rolls during sliding；

The elasticity push component for driving driven voller close to drive roll, the bullet are provided on two pieces of conveying mounting plates Property push component include the screw hole being arranged on conveying mounting plate and the bolt that is bolted in screw hole and be located at one in screw hole Hold the compressed spring abutted with bolt and the conflict block that can be abutted with mandrel side wall positioned at the compressed spring other end, the spiral shell Setting is connected with sliding slot is adjusted in hole, and the conflict block is convexly equipped with the interlocking for being embedded in compressed spring towards compressed spring one end Block.

The utility model is further arranged to: the driven voller includes the turning set and use for abutting with drive roll In the eccentric wheel for supporting turning set and separating with drive roll, the turning set, which rotates coaxially, to be connected on mandrel, the eccentric wheel It is fixedly connected with mandrel and is located at turning set end, the rotation center eccentric setting of the eccentric wheel and turning set, the core Axis is fixedly connected with rotational handle through the end of a conveying mounting plate.

The utility model is further arranged to: the end of the drive roll has been fixedly and coaxially connected the first driving wheel and second Driving wheel, is arranged with the first transmission belt between first driving wheel and the output end of foil closing motor, second driving wheel with Be arranged with the second transmission belt between foil closing axis, the output end lateral wall of the lateral wall of first driving wheel and foil closing motor, with And first transmission belt inner sidewall on be provided with engaging tooth.

The utility model is further arranged to: described to put on foil axis and foil closing axis coaxial sliding and be connected with for limiting foil The end of the abutment ring of paper tube, the abutment ring towards foil paper cylinder is arranged at conical structure, and being provided in the abutment ring can By the set lever that abutment ring is fixed.

In conclusion the utility model has the following beneficial effects: in operation Shi Kexian from feeding device by coiled strip to be printed (such as non-woven fabrics coiled strip) is released, and is collected after gold stamping device thermoprint by material collecting device, and the non-woven fabrics quilt through gold stamping device is conveyed It is tensioned between feeding device and material collecting device, should be rotated on ratchet bar by ratchet-gear wheel in the process and stent can be made in machine It is slid along its length on frame, and the position that stent slides on the rack can be regulated and controled by rotating ratchet-gear wheel, and And each feeding mounting rack can also be driven to slide along its width direction on the rack by manipulation driving spiral shell axis, it can be used in Regulate and control position of the thermoprint on non-woven fabrics, and the position regulated and controled includes horizontal and vertical, therefore the structure is conducive to improve The using flexible degree of gold stamping device, then cooperate foil paper feeding device can be with the foil paper of different dimensions to different size of Thermoprint carries out gold stamping operation, can also effectively improve the utilization rate to foil paper.Gold stamping device to non-woven fabrics carry out thermoprint when into Expect device and material collecting device operation suspension, restores the fortune of feeding device and material collecting device again after gold stamping device completes a thermoprint Row, and when suspend feeding device and material collecting device and gold stamping device execution stamping operation, that is, need detection probe and control Device regulate and control to each device, and the program need to debug the spacing between each stent, and detection probe can be located at rack Upper close material collecting device side, and spacing of the detection probe apart from stent should be consistent with the spacing between stent, Detection probe in this way can be controlled feeding device by controller and material collecting device suspends when detecting thermoprint position, and Gold stamping device executes stamping operation, and such detection probe is made each gold stamping by positioning to the thermoprint position on non-woven fabrics Device can carry out coordinate pair ratio by the thermoprint position that detection probe detects when executing thermoprint, and each gold stamping device is enabled to exist Stamping operation is executed in the case where with reference to object, so that the thermoprint position of each gold stamping device is corresponded to detection probe and is detected Thermoprint position, to be conducive to improve the levels of precision of thermoprint position between each gold stamping device.

Detailed description of the invention

Fig. 1 is the schematic perspective view of gilding press；

Fig. 2 is the schematic perspective view of multistation gold stamping device；

Fig. 3 is the schematic perspective view of gold stamping device；

Fig. 4 is the schematic perspective view of driving spindle；

Fig. 5 is the cross-sectional view of local gold stamping device；

Fig. 6 is the portion the A enlarged structure schematic diagram in Fig. 5；

Fig. 7 is the schematic perspective view of foil paper feeding device；

Fig. 8 is the schematic perspective view for clamping conveying assembly；

Fig. 9 is the cross-sectional view for clamping conveying assembly.

Appended drawing reference: 1, rack；11, stent；111, ratchet-gear wheel；112, rotation axis；113, handwheel；114, gas is clamped Cylinder；115, grip block；116, spiral shell axis is driven；12, movable mold；121, it perforates；122, boarding hole；123, metallic plate；124, tight Gu handle；13, ratchet bar；2, foil paper feeding device；21, feeding mounting rack；211, foil axis is put；212, foil closing axis；2121, second Transmission belt；213, magnetic powder brake；214, foil closing motor；2141, the first transmission belt；215, conveying assembly is clamped；2151, actively Roller；21511, the first driving wheel；21512, the second driving wheel；2152, driven voller；21521, mandrel；21522, turning set； 21523, eccentric wheel；21524, rotational handle；2153, mounting plate is conveyed；21531, sliding slot is adjusted；2154, support rod is conveyed； 2155, elasticity push component；21551, screw hole；21552, bolt；21553, compressed spring；21554, conflict block；216, it abuts Ring；2161, set lever；217, guide roller；218, avoid holes；3, driving part；31, driving spindle；311, eccentric rod；32, Drive host；33, driving slider；331, upper limit ring；332, lower limit ring；333, pressing spring is pressed；34, connector；35, hinged Part；4, feeding device；5, material collecting device；6, detection probe.

Specific embodiment

With reference to the accompanying drawings and examples, the utility model is further described.Wherein identical components phase Same appended drawing reference indicates.It should be noted that word "front", "rear" used in the following description, "left", "right", "upper" and "lower" refers to that the direction in attached drawing, word " bottom surface " and " top surface ", "inner" and "outside" are referred respectively to towards or away from specific The direction at component geometry center.

Referring to Fig.1 shown in -9, gilding press includes feeding device 4 for discharging coiled strip to be printed and for treating printed volume Material carries out the gold stamping device of thermoprint and the material collecting device 5 for collecting coiled strip to be printed, feeding device 4 are located at gold stamping device Feed end, material collecting device 5 are located at the discharge end of gold stamping device, and to be printed coiled strip of the conveying through gold stamping device is tensioned to feeding device Between 4 and material collecting device 5, wherein feeding device 4 and material collecting device 5 are that well-known technique can be to non-woven fabrics using being commonly designed Coiled strip is conveyed.

Gold stamping device includes that organic frame 1 and the stent being arranged in rack 1 11 and sliding are connected in stent 11 Movable mold 12 and the foil paper feeding device 2 that is arranged in stent 11 and for driving movable mold 12 close to or far from solid The driving part 3 of cover half 11, movable mold 12 are located at the top of stent 11, and foil paper feeding device 2 is located at the top of movable mold 12, Driving part 3 is located at 11 lower section of stent, and driving part 3 includes the axial driving spindle being rotationally connected in stent 11 31 and for driving the driving host 32 of driving spindle 31 and axially slide the driving slider 33 being connected in stent 11, it drives 33 one end of moving slide-bar is connect with movable mold 12, and the other end runs through after stent 11 by being provided with connector 34 and driving spindle 31 It connects, the eccentric rod 311 for being rotatablely connected with connector 34, the central axis of eccentric rod 311 is provided in driving spindle 31 With the centerline axis parallel and eccentric setting of driving spindle 31,34 one end of connector and eccentric rod 311 are rotatablely connected, the other end with Driving slider 33 is hinged, connector 34 and the hinged axial direction of driving slider 33 and being arranged in an axially parallel mode for eccentric rod 311, driving master Machine 32 drives in 31 rotation process of driving spindle, and the connector 34 being rotatablely connected with eccentric rod 311 is able to drive driving slider 33 It slides along its length；Host 32 is driven to drive in 31 rotation process of driving spindle, it is inclined with 31 eccentric setting of driving spindle Core bar 311 is able to drive the connector 34 being rotatablely connected with eccentric rod 311 and swings up and down, therefore hinged with 34 one end of connector Driving slider 33 can be slid by driving therewith, and driving slider 33 is through stent 11 and keeps the state axially slid, because This driving part 3 can be by cleverly designing positioned at 11 lower section of stent, and may be additionally located in rack 1, avoids driving portion 3 peripheral hardware of part and increase gilding press height dimension and lateral occupied area, and the position above gilding press can also be reserved For disposing for foil paper feeding device 2, and it is located at the foil paper feeding device 2 above gilding press relative to below gilding press Foil paper feeding device 2 is more convenient for the dismounting of foil paper, this is because the foil paper feeding device 2 being located at below gilding press needs operator Member bends over or squats down or even pierce the dismounting of progress foil paper in rack 1, and relative to standing, dismounting foil paper is more inconvenient.

Stent 11 be provided with it is multiple, and with rack 1 slide connect, glide direction of the stent 11 in rack 1 For the length direction of rack 1, it is provided with ratchet bar 13 along its length in rack 1, is axially rotatably connected in stent 11 The ratchet-gear wheel 111 engaged with ratchet bar 13, ratchet-gear wheel 111 are able to drive stent 11 along the length of ratchet bar 13 during rotation Direction sliding is spent, stent 11 can be rotated realization on ratchet bar 13 by ratchet-gear wheel 111 and be slid in rack 1, therefore be adjusted By rotation ratchet-gear wheel 111 when controlling 11 position of stent.Foil paper feeding device 2 and movable mold 12 and driving part 3 are set Quantity of the quantity set with stent 11 is consistent, wherein a stent 11 is connected with the sliding of rack 1, a driving part 3 It is arranged below stent 11, a movable mold 12 is arranged above stent 11, and foil paper feeding device 2 is arranged in movable mold 12 Side, as the gold stamping component of a whole group, and gold stamping component is provided with multiple groups, and connection can be slid in rack 1, scalds convenient for each group Spacing dimension is adjusted between golden component.In use process first group of gold stamping component can the first gold stamping pattern on product to be printed, then it is defeated Gold stamping text, realization the product to be printed of location and installation can be led on product to be printed when being sent to second group of gold stamping component It crosses the gold stamping component of multiple groups and carries out gold stamping operation, substantially increase gold stamping operating efficiency；And the gold stamping component of each group can be right respectively Product to be printed carries out the gold stamping operation of similar and different position, similar and different color, and substantially increase gilding press uses spirit Degree living.

Foil paper feeding device 2 includes the feeding mounting rack 21 with the sliding connection of stent 11, and feeding mounting rack 21 is solid Glide direction on cover half 11 is the width direction of rack 1, can be fixedly installed sliding rail, feeding mounting rack 21 in stent 11 On can be fixedly installed and slide rail sliding connection slipping block, slipping block with slide rail cross section set at oat tail groove structure It sets, enables slipping block that can slide along the length direction of sliding rail.Feeding mounting rack 21 is provided with several, each feeding installation Frame 21 is arranged along the width direction of rack 1, and the driving for driving feeding mounting rack 21 is rotatably connected in stent 11 Spiral shell axis 116, driving spiral shell axis 116 are also equipped with several, and the quantity of spiral shell axis 116 and the quantity of feeding mounting rack 21 is driven to protect It holds unanimously, is arranged in parallel between each driving spiral shell axis 116, and driving the length direction of spiral shell axis 116 is that feeding mounting rack 21 exists Glide direction in stent 11, a driving spiral shell axis 116 are spirally connected with a feeding mounting rack 21, are arranged on remaining feeding mounting rack 21 There are the avoid holes 218 for avoiding the driving spiral shell axis 116, feeding mounting rack 21 being capable of edge in rotation process for driving spiral shell axis 116 Rack 1 width direction sliding；Driving 116 end of spiral shell axis can be fixedly installed control handle, facilitate drive driving spiral shell axis 116 Rotation drives each feeding mounting rack 21 to slide in rack 1, so as to realize adjusting foil by manipulation driving spiral shell axis 116 The position of paper feeding device 2, the convenient product to be printed to different location carries out gold stamping operation, and is provided with multiple for foil paper The feeding mounting rack 21 of installation, to be conducive to further increase the using flexible degree of foil paper feeding device 2.Further for compared with The foil paper of width adaptation can be used to advantageously reduce manufacture to substantially increase the utilization rate to foil paper for small gold stamping design Cost.

Be rotatably connected on feeding mounting rack 21 and put foil axis 211 and foil closing axis 212, put the length direction of foil axis 211 with The length direction of foil closing axis 212 is arranged in parallel, and magnetic powder brake 213 is provided on feeding mounting rack 21 and for driving foil closing axis The foil closing motor 214 of 212 rotations, puts 211 end of foil axis and is fixedly connected with the output end of magnetic powder brake 213, foil closing motor 214 Magnetic powder brake 213 can be tensioned the foil put between foil axis 211 and foil closing axis 212 during driving foil closing axis 212 to rotate Paper；It can be enabled above by the setting of magnetic powder brake 213 and put foil axis 211 to the foil paper between foil closing axis 212 and can be tensioned, Be conducive to improve the yields of gilding press.

It is also rotatably connected on feeding mounting rack 21 for the guide roller 217 for foil paper around 12 lower section of movable mold, guiding The length direction of roller 217 and the length direction of foil closing axis 212 are arranged in parallel, and guide roller 217 is provided with two, and two are arranged in parallel Guide roller 217 be located at the opposite sides of movable mold 12.Foil paper feeding device 2 is located at 12 top of movable mold, can be by setting Setting guide roller 217 enables foil paper bypass between movable mold 12 and stent 11, and foil paper feeding device 2 is set to gilding press Top can also facilitate staff to dismount foil paper.

It puts foil axis 211 and foil closing axis 212 can be located separately 12 opposite sides of movable mold, two guide rollers 217 are located at Put the lower section of foil axis 211 and foil closing axis 212, stand-by foil paper from put foil axis 211 release and around after guide roller 217 to foil closing axis During 212 transfers, the foil paper positioned at 12 lower section of movable mold can be by gold stamping on product to be printed, and wherein foil closing motor 214 is used Foil paper after driving foil closing axis 212 to carry out winding use, therefore cooperate magnetic powder brake again by pullling the foil paper after use 213 enable the foil paper of 12 lower section of movable mold to be tensioned.And the foil closing motor 214 can be stepper motor, when driving part 3 drives Foil closing motor 214 can suspend when movable mold 12 is gold stamping, and band is shifted in movable mold primary gold stamping rear foil closing motor 214 to be done again Foil paper after 12 lower section uses, to execute gold stamping operation again after the replacement of products to be printed of lower section.

It is additionally provided with controller and the detection probe 6 for detecting hot stamping pattern position on coiled strip to be printed in rack 1, controls Device and detection probe 6 and feeding device 4 and gold stamping device and material collecting device 5 communicate to connect；Wherein controller can be single-chip microcontroller Or programmable controller, for regulating and controlling the start and stop of each device.In operation Shi Kexian from feeding device 4 by coiled strip (such as nonwoven to be printed Cloth coiled strip) it releases, it is collected after gold stamping device thermoprint by material collecting device 5, non-woven fabrics of the conveying through gold stamping device is tensioned to Between feeding device 4 and material collecting device 5, should be rotated on ratchet bar 13 by ratchet-gear wheel 111 in the process can make stent 11 It is slid along its length in rack 1, and the position that stent 11 slides in rack 1 passes through rotation ratchet-gear wheel 111 Regulated and controled, and can also drive each feeding mounting rack 21 in rack 1 along its width by manipulation driving spiral shell axis 116 Direction sliding, can be used in regulating and controlling position of the thermoprint on non-woven fabrics, and the position regulated and controled include it is horizontal and vertical, therefore The structure is conducive to improve the using flexible degree of gold stamping device, then cooperates foil paper feeding device 2 that can use different dimensions Foil paper gold stamping operation is carried out to different size of thermoprint, can also effectively improve the utilization rate to foil paper.In gold stamping device pair Non-woven fabrics carry out thermoprint when 5 operation suspension of feeding device 4 and material collecting device, after gold stamping device complete a thermoprint after restore again into Expect the operation of device 4 and material collecting device 5, and when suspends feeding device 4 and material collecting device 5 and gold stamping device execution thermoprint behaviour Make, that is, needs detection probe 6 and controller regulate and control to each device, the program need to debug between each stent 11 Spacing, and detection probe 6 can be located in rack 1 close to 5 side of material collecting device, and detection probe 6 is between stent 11 Away from that should be consistent with the spacing between stent 11, such detection probe 6 can pass through control when detecting thermoprint position Device controls feeding device 4 and material collecting device 5 and suspends, and gold stamping device executes stamping operation, and such detection probe 6 is by nothing Thermoprint position in woven fabric is positioned, and each gold stamping device is enable to detect by detection probe 6 when thermoprint executing Thermoprint position carries out coordinate pair ratio, and each gold stamping device is enabled to execute stamping operation with reference to object, makes each scald The thermoprint position that golden clothes are set can correspond to the thermoprint position that detection probe 6 detects, to be conducive to improve each gold stamping device Between thermoprint position levels of precision.

1 width two sides of rack are provided with ratchet bar 13, and two ratchet bars 13 are arranged in parallel, axially rotate in stent 11 It is connected with rotation axis 112, the length direction of the length direction and ratchet bar 13 of rotation axis 112 is vertically arranged, and ratchet-gear wheel 111 is also set There are two setting, and corresponding two ratchet bars 13 of two ratchet-gear wheels 111 are arranged, and two ratchet-gear wheels 111 are coaxially fixed on rotation axis On 112,112 end of rotation axis is provided with the handwheel 113 for driving rotation axis 112；Rotation axis 112 during rotation can It drives two ratchet-gear wheels 111 to rotate simultaneously, and two ratchet bars 13 is cooperated to be conducive to improve driving gold stamping device in sliding Synchronization extent and consistent level in journey, and the setting of handwheel 113 can facilitate driving of the operator to rotation axis 112.

Grip block 115 for gripping with rack 1 is additionally provided in stent 11 and for driving grip block 115 gripper cylinder 114.Grip block 115 can be driven to support with rack 1 by gripper cylinder 114 after the sliding in place of stent 11 It connects, to play the role of for stent 11 being fixed in rack 1, avoids gold stamping device from generating in use and be displaced and shadow Ring gold stamping position accuracy.

Movable mold 12 is connected with several metallic plates 123, the number of metallic plate 123 towards sliding on the end face of stent 11 It measures and is consistent with the quantity of feeding mounting rack 21, the glide direction of each metallic plate 123 is the width direction of rack 1, gold Belong to and is provided with the fastening handle 124 that metallic plate 123 can be fixed in movable mold 12 on printing plate 123.12 liang of movable mold Side may be provided with for the sliding rail for the sliding connection of metallic plate 123, and can be fixedly installed and slide on metallic plate 123 The slipping block of rail sliding connection, fastening handle 124 is screwed on slipping block, fastening handle 124 through slipping block and with sliding Metallic plate 123 is fixed in movable mold 12 to realize when rail abuts, which simply easily implements, and advantageously reduces construction Cost, and adjusted convenient for the sliding of metallic plate 123.

And the setting of the program enables metallic plate 123 also and can realize sliding in movable mold 12, and each feeding is cooperated to pacify Gold stamping operation can be carried out to different location on product to be printed by shelving 21, be conducive to the using flexible journey for further increasing gilding press Degree, it is applied widely.Multiple groups metallic plate 123 and feeding mounting rack 21 can also be cooperated to carry out one to multiple products to be printed simultaneously Secondary gold stamping operation is conducive to the working efficiency for improving gilding press.

Movable mold 12 is provided with for being bolted in driving slider 33 to be located at and live for the perforative perforation 121 of driving slider 33 The outer diameter of the upper limit ring 331 and lower limit ring 332 of about 12 two sides of dynamic model, lower limit ring 332 is greater than the interior of perforation 121 Diameter size has been abutted between upper limit ring 331 and movable mold 12 by pressing spring 333；Lower limit ring 332 can be in driving slider 33 Movable mold 12 is held up upwards when sliding upwards, upper limit ring 331 can be when driving slider 33 slides downwards by movable mold 12 Press down on, wherein movable mold 12 can be enabled to be elastically stressed by the setting of pressing spring 333, be conducive to movable mold 12 can with it is solid Cover half 11 uniformly presses.In addition, the sliding stroke and eccentric rod 311 of movable mold 12 and the eccentric degree of driving spindle 31 are at just Than, it can be effectively reduced processing and the assembly precision of movable mold 12 and driving spindle 31 by the setting by pressing spring 333, Debugging activity mould 12 is pressed in the pressure in stent 11, and the pressure for pressing pressing spring 333 can be adjusted by turn upper limit ring 331 Contracting degree can be realized, therefore the program enormously simplifies the debugging difficulty of gold stamping device, convenient for being widely used to promote.

The upper surface of movable mold 12 is provided with for for the boarding hole 122 that is embedded in by pressing spring 333, boarding hole 122 with wear Hole 121 is coaxially disposed, and the internal diameter of boarding hole 122 is adapted with by the outer diameter of pressing spring 333.Boarding hole 122 is set The steady deformation by pressing spring 333 can be conducive to, and then be conducive to improve gold stamping dress convenient for by the positioning of pressing spring 333 by setting That sets uses consistent level.

The both ends of 31 length direction of driving spindle are respectively connected with driving slider 33, and connector 34 and eccentric rod 311 are respectively provided with There are two, the central axis of 31 both ends eccentric rod 311 of driving spindle is overlapped setting, and driving host 32 drives driving spindle 31 to rotate In the process, two connectors 34 with the rotation connection of two eccentric rods 311 are able to drive two driving sliders, 33 synchronization-sliding；Although can also By the way that by the setting of driving slider 33, in 31 one end of driving spindle, the other end can enable movable mold 12 by the way that positioning guiding structure is arranged Sliding up and down, but the driving slider 33 of 31 both ends of driving spindle setting can be conducive to improve both ends when movable mold 12 being driven to slide Synchronization extent, to be conducive to the horizontal pressing of movable mold 12 in stent 11, and then be conducive to improve gold stamping device Use consistent level.

31 one end of driving spindle is provided with two driving sliders 33, and two driving sliders 33 are arranged in parallel, and two drivings are slided One end between bar 33 far from movable mold 12 is fixedly connected with for the articulation piece 35 hinged with connector 34,35 one end of articulation piece Be fixedly connected with two driving sliders 33, the other end and connector 34 are hinged, the hinged axial direction of articulation piece 35 and connector 34 and Eccentric rod 311 is arranged in an axially parallel mode, and driving host 32 drives in 31 rotation process of driving spindle, is rotated and is connected with eccentric rod 311 The connector 34 connect drives two driving sliders, 33 synchronization-sliding by articulation piece 35.Increased by way of increasing driving slider 33 The consistent level that driving spindle 31 drives stent 11 to slide, phenomena such as effectively avoiding stent 11 from generating rotation, inclination.

Being provided on feeding mounting rack 21 can enable foil paper be wound up into the clamping on foil closing axis 212 by clamping conveying foil paper Conveying assembly 215, clamping conveying assembly 215 includes the drive roll 2151 and driven voller that can be held on foil paper opposite sides 2152, drive roll 2151 and driven voller 2152 are rotationally connected on feeding mounting rack 21, and the length side of drive roll 2151 It is arranged in parallel to the length direction with driven voller 2152, the length direction of drive roll 2151 and the length direction of foil closing axis 212 are flat Row setting, the output end and drive roll 2151 of foil closing motor 214 are sequentially connected, and drive roll 2151 and foil closing axis 212 are sequentially connected. Stand-by foil paper from put during foil axis 211 is shifted to foil closing axis 212 foil paper pull by clamping conveying assembly 215 it is defeated It send, is tensioned by pullling the foil paper that the foil paper after use cooperates magnetic powder brake 213 to enable 12 lower section of movable mold again, finally In foil paper winding to foil closing axis 212 after using.Wherein clamping conveying assembly 215 is held on the foil paper two sides after use, because This clamping conveying assembly 215 can not only realize the clamping to foil paper convey, additionally it is possible to effectively avoid because drive roll 2151 and from Dynamic roller 2152 conveys the clamping of foil paper and influences to be located at the foil paper integrated degree below gold stamping type matrix, and then is conducive to improve and scald The yields of golden machine.And foil closing motor 214 can drive drive roll 2151 and foil closing axis 212 to rotate simultaneously, not only optimize The drive mechanism of foil paper feeding device 2 decreases the quantity demand to power part.

Clamping conveying assembly 215 further include have two pieces positioned at 2152 length direction both ends of drive roll 2151 and driven voller it is defeated The conveying support rod 2154 for sending mounting plate 2153 and being supported between two pieces of conveying mounting plates 2153, driven voller 2152 include Both ends are rotatably connected on the mandrel 21521 on two pieces of conveying mounting plates 2153, are provided with use on two pieces of conveying mounting plates 2153 In the adjusting sliding slot 21531 slid for mandrel 21521, mistake of the driven voller 2152 along the length direction sliding for adjusting sliding slot 21531 It can be close to or far from drive roll 2151 in journey；Two pieces of conveying mounting plates 2153 are built into several conveying support rods 2154 and are used for For the frame that drive roll 2151 and driven voller 2152 are rotatablely connected, and the frame is fixed on feeding mounting rack 21, is adjusted and is slided The groove width size of slot 21531 is adapted with the outer diameter of mandrel 21521, and mandrel 21521 can turn adjusting in sliding slot 21531 It is dynamic, and can slide along its length.

It is provided on two pieces of conveying mounting plates 2153 for driving driven voller 2152 to push away close to the elasticity of drive roll 2151 Sending component 2155, elasticity push component 2155 include the screw hole 21551 being arranged on conveying mounting plate 2153 and are bolted in spiral shell Bolt 21552 in hole 21551 and one end is abutted with bolt 21552 in screw hole 21551 compressed spring 21553 and position In the conflict block 21554 that 21553 other end of compressed spring can be abutted with 21521 side wall of mandrel, screw hole 21551 and adjusting sliding slot 21531 conducting settings, conflict block 21554 are convexly equipped with towards 21553 one end of compressed spring for being embedded in compressed spring 21553 Built-in brick.Conflict block 21554 can be fixedly connected on 21553 one end of compressed spring, and conflict block 21554 and pressure by built-in brick The spiral shell that the outer diameter of contracting spring 21553 can be adapted with the internal diameter of screw hole 21551, and be screwed onto screw hole 21551 Bolt 21552 enables conflict block 21554 be pressed on mandrel 21521 always, is conducive to by compressing compressed spring 21553 Drive roll 2151 and driven voller 2152 keep elastic conflict, avoid it is too tight or too loose between drive roll 2151 and driven voller 2152 and The degree of stability of foil paper clamping conveying is influenced, and clamping conveying can also be effectively reduced by setting elasticity push component 2155 Component 215 clamps the debugging difficulty of foil paper, conveys foil paper convenient for clamping 215 resilient clamp of conveying assembly.

Driven voller 2152 includes turning set 21522 for abutting with drive roll 2151 and has been used to support turning set 21522 eccentric wheels 21523 isolated with drive roll 2151, turning set 21522, which rotates coaxially, to be connected on mandrel 21521, eccentric Wheel 21523 is fixedly connected with mandrel 21521 and is located at 21522 end of turning set, eccentric wheel 21523 and turning set 21522 Rotation center eccentric setting, mandrel 21521 are fixedly connected with rotational handle 21524 through the end of a conveying mounting plate 2153. Turning set 21522 can be rotationally connected on mandrel 21521 by bearing, and the eccentric wheel 21523 of 21522 end of turning set can It is abutted with drive roll 2151, wherein turning set 21522 can be made of rubber or metal, and elasticity layer is wrapped up in outside, increase and main The frictional force of dynamic roller 2151, and eccentric wheel 21523 can be used metal and be made, mandrel 21521 is in rotation process, driven voller 2152 Size between drive roll 2151 when 21521 center of mandrel to 21523 edge of eccentric wheel is less than the radius of turning set 21522 When, turning set 21522 is abutted with drive roll 2151, and there are gaps between eccentric wheel 21523 and drive roll 2151, works as mandrel When the size of 21521 centers to 21523 edge of eccentric wheel is greater than the radius of turning set 21522, eccentric wheel 21523 and drive roll 2151 abut, and mandrel 21521 is lifted away from drive roll 2151 under the action of eccentric wheel 21523, and mandrel 21521 is being adjusted during being somebody's turn to do Sliding in sliding slot 21531 is saved, and further compresses compressed spring 21553, and between turning set 21522 and drive roll 2151 Gap is erected by eccentric wheel 21523, to realize that pause conveys the clamping of foil paper.Therefore above scheme is when gilding press is debugged Can by rotational handle 21524 with moving mandrel 21521 rotate during by eccentric wheel 21523 make turning set 21522 with Drive roll 2151 separates, so that pause conveys the clamping of foil paper, and then advantageously reduces the process that foil paper is debugged in gilding press The waste of middle generation also increases the debugging degree of flexibility of feeding device.

It additionally should be noted, when eccentric wheel 21523 and 2151 gap setting of drive roll, clamped conveying assembly 215 When can operate normally, and need to separate drive roll 2151 and driven voller 2152, preferably it is respectively provided at the both ends of turning set 21522 There is eccentric wheel 21523, so that turning set 21522 be enable to completely disengage with drive roll 2151；And in order to avoid eccentric wheel 21523 compress 2151 side wall of drive roll and generate impression, and the position that eccentric wheel 21523 can also be corresponded on drive roll 2151 is set It sets and compresses wheel, compressed for eccentric wheel 21523, this compresses wheel and can also be made of metal.

The end of drive roll 2151 has been fixedly and coaxially connected the first driving wheel 21511 and the second driving wheel 21512, and first passes The first transmission belt 2141, the second driving wheel 21512 and foil closing are arranged between driving wheel 21511 and the output end of foil closing motor 214 The second transmission belt 2121 is arranged between axis 212, outside the lateral wall of the first driving wheel 21511 and the output end of foil closing motor 214 Engaging tooth is provided on the inner sidewall of side wall and the first transmission belt 2141.Foil closing motor 214 can pass through the first transmission belt 2141 and first driving wheel 21511 drive drive roll 2151 to rotate, drive roll 2151 is passed by the second transmission belt 2121 and second Driving wheel 21512 drives foil closing axis 212 to rotate synchronously, which simply easily implements, and can be realized drive roll 2151 and foil closing axis 212 Synchronous rotation, be also beneficial to reduce equipment cost.In addition, the setting of engaging tooth can effectively avoid drive belt slip, in turn Be conducive to improve the operation is stable degree of clamping conveying assembly 215.

It puts coaxial sliding on foil axis 211 and foil closing axis 212 and is connected with the abutment ring 216 for limiting foil paper cylinder, abut The end of ring 216 towards foil paper cylinder is arranged at conical structure, and lock that can be fixed by abutment ring 216 is provided in abutment ring 216 Tight handle 2161.The diameter of axle for putting foil axis 211 is less than the internal diameter of foil paper reel, and the diameter of axle of foil closing axis 212 is less than the interior of collection reel Diameter, and the circular cone miner diameter end of abutment ring 216 is again smaller than the internal diameter of foil paper reel and collection reel, but bigger diameter end is greater than foil paper reel With the internal diameter of collection reel, the program can in foil paper reel and collection drum sheath after putting on foil axis 211 and foil closing axis 212, Foil paper reel and collection reel are gripped by the realization of abutment ring 216 at both ends, and foil paper reel can also be adjusted With the position of collection reel length direction on putting foil axis 211 and foil closing axis 212, it is conveniently adjusted the installation site of foil paper, favorably In the degree flexible for installation for improving foil paper, abutment ring 216 is fastened eventually by set lever 2161.

Above are merely preferred embodiments of the utility model, the protection scope of the utility model is not limited merely to above-mentioned Embodiment, technical solution belonging to the idea of the present invention belong to the protection scope of the utility model.It should be pointed out that pair For those skilled in the art, several improvements and modifications without departing from the principle of the utility model, These improvements and modifications also should be regarded as the protection scope of the utility model.

Claims (10)

1. gilding press includes to carry out scalding for thermoprint for discharging the feeding device of coiled strip to be printed (4) and for treating printed volume material Golden clothes are set and the material collecting device (5) for collecting coiled strip to be printed, the feeding device (4) are located at the feed end of gold stamping device, The material collecting device (5) is located at the discharge end of gold stamping device, and to be printed coiled strip of the conveying through gold stamping device is tensioned to feeding device (4) between material collecting device (5), it is characterized in that: the gold stamping device includes organic frame (1) and setting consolidating on rack (1) The movable mold (12) and the foil paper feeding being arranged on stent (11) that cover half (11) and sliding are connected on stent (11) Device (2) and for driving movable mold (12) close to or far from the driving part (3) of stent (11), the movable mold (12) it is located at the top of stent (11), the foil paper feeding device (2) is located at the top of movable mold (12), the driving part (3) it is located at below stent (11), the driving part (3) includes the axial driving master being rotationally connected on stent (11) Axis (31) and for driving the driving host (32) of driving spindle (31) and axially sliding the drive being connected on stent (11) Moving slide-bar (33), described driving slider (33) one end are connect with movable mold (12), and the other end is through stent (11) afterwards by setting It is equipped with connector (34) to connect with driving spindle (31), be provided on the driving spindle (31) for being rotated with connector (34) The eccentric rod (311) of connection, the central axis of the eccentric rod (311) and the centerline axis parallel and bias of driving spindle (31) Setting, described connector (34) one end and eccentric rod (311) are rotatablely connected, the other end and driving slider (33) hingedly, the company Fitting (34) and the hinged axial direction of driving slider (33) and being arranged in an axially parallel mode for eccentric rod (311), driving host (32) drive In driving spindle (31) rotation process, driving slider (33) are able to drive with the connector (34) of eccentric rod (311) rotation connection It slides along its length；

The stent (11) be provided with it is multiple, and with rack (1) slide connect, the stent (11) is in rack (1) On glide direction be rack (1) length direction, be provided with ratchet bar (13), institute along its length on the rack (1) The ratchet-gear wheel (111) for being axially rotatably connected on stent (11) and engaging with ratchet bar (13) is stated, ratchet-gear wheel (111) was rotating The length direction that stent (11) is able to drive in journey along ratchet bar (13) slides, the foil paper feeding device (2) and movable mold (12) and quantity of the quantity with stent (11) of driving part (3) setting is consistent, and is also set up on the rack (1) There are a controller and the detection probe (6) for detecting hot stamping pattern position on coiled strip to be printed, the controller and detection probe (6) It is communicated to connect with feeding device (4) and gold stamping device and material collecting device (5)；

The foil paper feeding device (2) includes the feeding mounting rack (21) with stent (11) sliding connection, the feeding peace The width direction that the glide direction of (21) on stent (11) is rack (1) is shelved, the feeding mounting rack (21) is provided with Several, each feeding mounting rack (21) is arranged along the width direction of rack (1), is rotatablely connected on the stent (11) There is the driving spiral shell axis (116) for driving feeding mounting rack (21), the driving spiral shell axis (116) is also equipped with several, and The quantity of the quantity and feeding mounting rack (21) that drive spiral shell axis (116) is consistent, and is set in parallel between each driving spiral shell axis (116) It sets, and driving the length direction of spiral shell axis (116) is the glide direction of feeding mounting rack (21) on stent (11), a driving Spiral shell axis (116) is spirally connected with a feeding mounting rack (21), is provided on remaining feeding mounting rack (21) for avoiding the driving spiral shell axis (116) avoid holes (218), feeding mounting rack (21) can be along the width of rack (1) in rotation process for driving spiral shell axis (116) Spend direction sliding；

It is rotatably connected on the feeding mounting rack (21) and puts foil axis (211) and foil closing axis (212), it is described to put foil axis (211) The length direction of length direction and foil closing axis (212) be arranged in parallel, be provided with magnetic powders brake on the feeding mounting rack (21) Device (213) and for drive foil closing axis (212) rotate foil closing motor (214), it is described to put foil axis (211) end and magnetic powders brake The output end of device (213) is fixedly connected, foil closing motor (214) magnetic powder brake during driving foil closing axis (212) to rotate (213) foil paper put between foil axis (211) and foil closing axis (212) can be tensioned；

It is also rotatably connected on the feeding mounting rack (21) for bypassing the guide roller below movable mold (12) for foil paper (217), the length direction of the length direction and foil closing axis (212) of the guide roller (217) is arranged in parallel, the guide roller (217) two are provided with, two guide rollers (217) disposed in parallel are located at the opposite sides of movable mold (12).

2. gilding press according to claim 1, it is characterized in that: the rack (1) width two sides are provided with ratchet bar (13), two ratchet bars (13) are arranged in parallel, and are axially rotatably connected to rotation axis (112) on the stent (11), described turn The length direction of moving axis (112) and the length direction of ratchet bar (13) are vertically arranged, and the ratchet-gear wheel (111) is also equipped with two It is a, and corresponding two ratchet bars (13) setting of two ratchet-gear wheels (111), two ratchet-gear wheels (111) are coaxially fixed on rotation axis (112) on, rotation axis (112) end is provided with the handwheel (113) for driving rotation axis (112)；

It is additionally provided with the grip block (115) for gripping with rack (1) on the stent (11) and is pressed from both sides for driving Hold the gripper cylinder (114) of block (115).

3. gilding press according to claim 1 or 2, it is characterized in that: end of the movable mold (12) towards stent (11) Sliding is connected with several metallic plates (123) on face, the quantity of the metallic plate (123) and the quantity of feeding mounting rack (21) It is consistent, the glide direction of each metallic plate (123) is the width direction of rack (1), on the metallic plate (123) It is provided with the fastening handle (124) that metallic plate (123) can be fixed on movable mold (12).

4. gilding press according to claim 1 or 2, it is characterized in that: the movable mold (12) is provided with for sliding for driving Bar (33) perforative perforation (121) is bolted with the upper limit positioned at movable mold (12) two sides up and down on the driving slider (33) Ring (331) and lower limit ring (332), the outer diameter of the lower limit ring (332) are greater than the internal diameter of perforation (121), institute It states and has been abutted between upper limit ring (331) and movable mold (12) by pressing spring (333)；

The upper surface of the movable mold (12) is provided with for the boarding hole (122) for being embedded in by pressing spring (333), the interlocking Hole (122) and perforation (121) coaxial arrangement, the internal diameter of the boarding hole (122) and the outer diameter for pressing pressing spring (333) It is adapted.

5. gilding press according to claim 4, it is characterized in that: the both ends of the driving spindle (31) length direction are all connected with Have driving slider (33), there are two the connector (34) and eccentric rod (311) are respectively provided with, driving spindle (31) both ends are inclined The central axis of core bar (311) is overlapped setting, and driving host (32) drives in driving spindle (31) rotation process, with two eccentric rods (311) two connectors (34) being rotatablely connected are able to drive two driving sliders (33) synchronization-sliding；

Described driving spindle (31) one end is provided with two driving sliders (33), and two driving sliders (33) are arranged in parallel, and two One end between driving slider (33) far from movable mold (12) is fixedly connected with for the articulation piece hinged with connector (34) (35), described articulation piece (35) one end is fixedly connected with two driving sliders (33), and the other end and connector (34) are hingedly, described Articulation piece (35) and the hinged axial direction of connector (34) and being arranged in an axially parallel mode for eccentric rod (311), driving host (32) drive In driving spindle (31) rotation process, two are driven by articulation piece (35) with the connector (34) of eccentric rod (311) rotation connection Driving slider (33) synchronization-sliding.

6. gilding press according to claim 1, it is characterized in that: folder can be passed through by being provided on the feeding mounting rack (21) Hold the clamping conveying assembly (215) that conveying foil paper enables foil paper be wound up on foil closing axis (212), the clamping conveying assembly (215) Include the drive roll (2151) and driven voller (2152) that can be held on foil paper opposite sides, the drive roll (2151) and from Dynamic roller (2152) are rotationally connected on feeding mounting rack (21), and the length direction and driven voller of drive roll (2151) (2152) length direction is arranged in parallel, and the length direction of the drive roll (2151) and the length direction of foil closing axis (212) are flat Row setting, the output end of the foil closing motor (214) and drive roll (2151) are sequentially connected, the drive roll (2151) and foil closing Axis (212) transmission connection.

7. gilding press according to claim 6, it is characterized in that: the clamping conveying assembly (215) further includes having to be located at master It moves two pieces of conveying mounting plates (2153) at roller (2151) and driven voller (2152) length direction both ends and is supported in two pieces of conveyings peaces Conveying support rod (2154) between loading board (2153), the driven voller (2152) include that both ends are rotatably connected on two pieces of conveyings Mandrel (21521) on mounting plate (2153) is provided on two pieces of conveying mounting plates (2153) for sliding for mandrel (21521) The adjusting sliding slot (21531) of shifting, the length direction that driven voller (2152) edge adjusts sliding slot (21531) can lean on during sliding Close or remote from drive roll (2151)；

The elasticity for driving driven voller (2152) close to drive roll (2151) is provided on two pieces of conveyings mounting plate (2153) It pushes component (2155), elasticity push component (2155) includes screw hole of the setting in conveying mounting plate (2153) (21551) and the bolt (21552) that is bolted in screw hole (21551) and it is located at screw hole (21551) interior one end and bolt (21552) abut compressed spring (21553) and be located at compressed spring (21553) other end can be with mandrel (21521) side wall The conflict block (21554) of abutting, the screw hole (21551) and adjusting sliding slot (21531) conducting are arranged, the conflict block (21554) built-in brick for being embedded in compressed spring (21553) is convexly equipped with towards compressed spring (21553) one end.

8. gilding press according to claim 7, it is characterized in that: the driven voller (2152) includes to be used for and drive roll (2151) abut turning set (21522) and be used to support the eccentric wheel that turning set (21522) is separated with drive roll (2151) (21523), the turning set (21522), which rotates coaxially, is connected on mandrel (21521), the eccentric wheel (21523) and mandrel (21521) it is fixedly connected and is located at turning set (21522) end, the rotation of the eccentric wheel (21523) and turning set (21522) Turn center eccentric setting, the mandrel (21521) is fixedly connected with rotational handle through the end of conveying mounting plate (2153) (21524)。

9. the gilding press according to any one of claim 6-8, it is characterized in that: the end of the drive roll (2151) is same Axis is fixedly connected with the first driving wheel (21511) and the second driving wheel (21512), first driving wheel (21511) and foil closing It is arranged between the output end of motor (214) the first transmission belt (2141), second driving wheel (21512) and foil closing axis (212) it is arranged between the second transmission belt (2121), the lateral wall and foil closing motor (214) of first driving wheel (21511) Output end lateral wall and the first transmission belt (2141) inner sidewall on be provided with engaging tooth.

10. gilding press according to claim 1 or 6, it is characterized in that: described put on foil axis (211) and foil closing axis (212) Coaxial sliding is connected with the abutment ring (216) for limiting foil paper cylinder, end Cheng Yuan of the abutment ring (216) towards foil paper cylinder Wimble structure is arranged, and set lever (2161) that can be fixed by abutment ring (216) is provided on the abutment ring (216).