CN109016815B - Stamping machine - Google Patents

Abstract

The invention discloses a stamping machine, which adopts the technical scheme that the stamping machine comprises a feeding device, a stamping device and a receiving device, wherein the stamping device comprises a rack, a fixed die, a plurality of movable dies, a foil feeding device and a driving part, the fixed dies are arranged and are connected with the rack in a sliding manner, the rack is provided with a ratchet bar, the fixed die is connected with a ratchet wheel in a rotating manner, the number of the foil feeding device, the number of the movable dies and the number of the driving parts are all consistent with the number of the fixed dies, and the rack is also provided with a controller and a detection probe; the foil paper feeding device comprises a plurality of feeding mounting frames, the fixed die is rotatably connected with driving screw shafts, the number of the driving screw shafts is consistent with that of the feeding mounting frames, and one driving screw shaft is in threaded connection with one feeding mounting frame. The stamping machine is high in using flexibility, the utilization rate of foil paper can be effectively improved, the stamping operation of different positions or different colors is not required to be positioned again, and the accuracy of the stamping positions is improved.

Description

Stamping machine

Technical Field

The invention relates to the technical field of printing equipment, in particular to a stamping machine.

Background

Gilding is also used as "hot stamping". A printing decoration process. And heating the gold stamping matrix, applying foil, and stamping golden characters or patterns on the printed matter. With the rapid development of the hot stamping foil and packaging industry, the application of hot stamping is more and more extensive.

The existing stamping machine comprises a fixed die fixed on a frame, a movable die connected on the frame in a sliding manner, a driving part used for driving the movable die and a foil feeding device capable of conveying foil, wherein the fixed die, the movable die and the foil feeding device are all matched with the specification of the stamping machine and can only be used for carrying out stamping operation on products to be printed within a certain specification range, when the products to be printed are too large, the stamping machine cannot carry out stamping operation, when the products to be printed are too small, the foil which is not provided with text or pattern areas cannot be used after one-time stamping operation, and the utilization rate of the foil is greatly reduced. And need change gilding press many times when need carry out the thermoprint operation of different positions or different colours to a product of waiting to print, and repeated more change position has not only reduced thermoprint position accuracy, has more increased workman's the amount of labour, is unfavorable for improving work efficiency.

Disclosure of Invention

Aiming at the defects in the prior art, the invention aims to provide the stamping machine which is high in flexibility, can effectively improve the utilization rate of foil paper, does not need to perform re-positioning on the stamping operation needing to be performed at different positions or different colors, and is favorable for improving the accurate precision of the stamping position.

In order to achieve the purpose, the invention provides the following technical scheme: a stamping machine comprises a feeding device used for releasing a to-be-printed roll material, a stamping device used for carrying out hot stamping on the to-be-printed roll material and a receiving device used for collecting the to-be-printed roll material, wherein the feeding device is positioned at the feeding end of the stamping device, the receiving device is positioned at the discharging end of the stamping device, the to-be-printed roll material conveyed through the stamping device is tensioned between the feeding device and the receiving device, the stamping device comprises a rack, a fixed die arranged on the rack, a movable die connected to the fixed die in a sliding mode, a foil paper feeding device arranged on the fixed die and a driving part used for driving the movable die to be close to or far away from the fixed die, the movable die is positioned above the fixed die, the foil paper feeding device is positioned above the movable die, and the driving part is positioned below the fixed die;

the device comprises a rack, a plurality of fixed dies and a controller, wherein the fixed dies are arranged on the rack and are connected with the rack in a sliding manner, the sliding direction of the fixed dies on the rack is the length direction of the rack, a ratchet bar is arranged on the rack along the length direction of the rack, a ratchet gear meshed with the ratchet bar is axially and rotatably connected to the fixed dies, the ratchet gear can drive the fixed dies to slide along the length direction of the ratchet bar in the rotating process, the number of the foil paper feeding devices, the number of the movable dies and the number of the driving parts are all consistent with the number of the fixed dies, the rack is also provided with the controller and a detection probe for detecting the position of a hot stamping pattern on a coil stock to be printed, and the controller is in communication connection with the detection probe;

the foil paper feeding device comprises a feeding mounting frame connected with the fixed die in a sliding manner, the sliding direction of the feeding mounting frame on the fixed die is the width direction of the rack, a plurality of feeding mounting racks are arranged, each feeding mounting rack is arranged along the width direction of the frame, the fixed die is rotationally connected with a plurality of driving screw shafts for driving the feeding mounting frame, the number of the driving screw shafts is consistent with that of the feeding mounting frames, all the driving screw shafts are arranged in parallel, the length direction of the driving screw shaft is the sliding direction of the feeding mounting frame on the fixed die, one driving screw shaft is in threaded connection with the feeding mounting frame, all the other feeding mounting frames are provided with avoiding holes for avoiding the driving screw shaft, and the driving screw shaft can slide along the width direction of the rack in the rotating process of the feeding mounting frames.

The invention is further configured to: the feeding mounting frame is rotatably connected with a foil releasing shaft and a foil collecting shaft, the length direction of the foil releasing shaft is parallel to the length direction of the foil collecting shaft, a magnetic powder brake and a foil collecting motor for driving the foil collecting shaft to rotate are arranged on the feeding mounting frame, the end part of the foil releasing shaft is fixedly connected with the output end of the magnetic powder brake, and foil paper between the foil releasing shaft and the foil collecting shaft can be tensioned by the magnetic powder brake in the process of driving the foil collecting shaft to rotate by the foil collecting motor;

the utility model discloses a foil winding machine, including material loading mounting bracket, movable mould, guide roll, take up form axle, still rotate on the material loading mounting bracket and be connected with and be used for supplying the foil to walk around the guide roll of movable mould below, the length direction of guide roll and the length direction parallel arrangement who receives the foil axle are provided with two guide rolls on the material loading mounting bracket, and two parallel arrangement's guide roll is located the relative both sides of movable mould respectively.

The invention is further configured to: be provided with on the material loading mounting bracket and can carry foil paper order foil paper to convolute the epaxial centre gripping conveying assembly of receipts foil through the centre gripping, centre gripping conveying assembly is including can the centre gripping in the drive roll and the driven voller of the relative both sides of foil paper, drive roll and driven voller all rotate to be connected on the material loading mounting bracket to the length direction of drive roll and the length direction parallel arrangement of driven voller, the length direction of drive roll and the length direction parallel arrangement who receives the foil axle, the output and the drive roll transmission of receipts foil motor are connected, the drive roll is connected with receipts foil axle transmission.

The invention is further configured to: the clamping conveying assembly further comprises two conveying mounting plates positioned at two ends of the driving roller and the driven roller in the length direction, and a conveying supporting rod supported between the two conveying mounting plates, the driven roller comprises a mandrel with two ends rotatably connected to the two conveying mounting plates, adjusting sliding grooves for the mandrel to slide are formed in the two conveying mounting plates, and the driven roller can be close to or far away from the driving roller in the process of sliding along the length direction of the adjusting sliding grooves;

all be provided with the elasticity propelling movement subassembly that is used for driving the driven voller and is close to the drive roll on two transport mounting panels, elasticity propelling movement subassembly including set up screw on transport mounting panel and spiro union in the screw bolt and be located the screw one end and the compression spring of bolt butt and be located the compression spring other end can with the conflict piece of dabber lateral wall butt, the screw switches on the setting with adjusting the spout, the conflict piece is equipped with the scarf joint piece that is used for imbedding in the compression spring towards the protruding compression spring one end.

The invention is further configured to: the driven roller is including being used for with the rotating sleeve of drive roll butt and being used for supporting the eccentric wheel that rotates sleeve and drive roll separation, it connects in the dabber to rotate the cover coaxial, eccentric wheel and dabber fixed connection and be located and rotate set tip, the eccentric wheel sets up with the center of rotation of rotating the cover is eccentric, the dabber runs through the tip fixedly connected with turning handle of a transport mounting panel.

The invention is further configured to: put the epaxial equal coaxial butt ring that is connected with and is used for spacing paper tinsel of sliding of paper tinsel axle and receipts paper tinsel, the butt ring becomes the setting of circular cone structure towards the tip of paper tinsel, be provided with the locking handle that can fix the butt ring on the butt ring.

The invention is further configured to: the drive assembly including the axial rotate connect in the fixed mould drive main shaft and be used for driving the drive main shaft the host computer and the axial slide connection drive slide bar on the fixed mould, drive slide bar one end is connected with the movable mould, and the other end runs through behind the fixed mould and is connected with the drive main shaft through being provided with the connecting piece, be provided with on the drive main shaft and be used for rotating the eccentric bar of being connected with the connecting piece, the central axis of eccentric bar and the central axis parallel and the eccentric settings of drive main shaft, connecting piece one end rotates with the eccentric bar to be connected, and the other end is articulated with the drive slide bar, the connecting piece and the articulated axial of drive slide bar and the axial parallel arrangement of eccentric bar, the host computer drives the drive main shaft and rotates the in-process, and the connecting.

The invention is further configured to: the movable die is provided with a through hole for the penetration of the driving slide rod, the driving slide rod is in threaded connection with an upper limiting ring and a lower limiting ring which are positioned at the upper side and the lower side of the movable die, the outer diameter of the lower limiting ring is larger than the inner diameter of the through hole, and a pressing spring is abutted between the upper limiting ring and the movable die;

the up end of activity mould is provided with the scarf joint hole that is used for supplying to press the spring embedding, the scarf joint hole sets up with the perforation is coaxial, the internal diameter size in scarf joint hole and the external diameter size looks adaptation of pressing the spring.

The invention is further configured to: the two ends of the driving main shaft in the length direction are both connected with driving slide bars, the two connecting pieces and the two eccentric bars are arranged, the central axes of the eccentric bars at the two ends of the driving main shaft are arranged in a superposition manner, and the two connecting pieces rotationally connected with the two eccentric bars can drive the two driving slide bars to synchronously slide when the driving main machine drives the driving main shaft to rotate;

the utility model discloses a driving mechanism, including driving main shaft, two driving slide bar, articulated elements, connecting piece, articulated host, connecting piece, driving main shaft and connecting piece, driving main shaft one end is provided with two driving slide bar, two driving slide bar parallel arrangement, and the one end fixedly connected with of keeping away from the movable mould between two driving slide bar is used for the articulated elements articulated with the connecting piece, articulated elements one end and two driving slide bar fixed connection, and the other end is articulated with the connecting piece, the articulated elements and the articulated axial direction of connecting piece and the axial parallel arrangement.

The invention is further configured to: the end face, facing the fixed die, of the movable die is connected with a plurality of metal printing plates in a sliding mode, the number of the metal printing plates is consistent with that of the feeding mounting frames, the sliding direction of each metal printing plate is the width direction of the rack, and fastening handles capable of fixing the metal printing plates on the movable die are arranged on the metal printing plates.

In conclusion, the invention has the following beneficial effects: during operation, a to-be-printed roll material (such as a non-woven fabric roll material) can be discharged from a feeding device firstly, the to-be-printed roll material is collected by a receiving device after being subjected to hot stamping by a hot stamping device, the non-woven fabric conveyed by the hot stamping device is tensioned between the feeding device and the receiving device, in the process, a fixed die can slide on a rack along the length direction of the fixed die by rotating a ratchet gear, the sliding position of the fixed die on the rack can be regulated and controlled by rotating the ratchet gear, and a driving screw shaft can be controlled to drive each feeding installation frame to slide on the rack along the width direction of the feeding installation frame, the position of the non-woven fabric can be regulated and controlled, and the regulated and controlled positions comprise the transverse direction and the longitudinal direction, so that the structure is favorable for improving the use flexibility of the hot stamping device, and the foil feeding device can be matched with foil paper with different sizes and specifications, the utilization rate of the foil paper can be effectively improved. When the gold stamping device carries out hot stamping on the non-woven fabric, the feeding device and the receiving device are suspended, the feeding device and the receiving device are recovered after the gold stamping device finishes one hot stamping, and when the feeding device and the receiving device are suspended and the gold stamping device carries out hot stamping operation, namely, a detection probe and a controller are needed to regulate and control the devices, the scheme needs to adjust and control the space between each fixed die, the detection probe can be positioned on one side of the rack close to the receiving device, and the space between the detection probe and the fixed die is consistent with the space between the fixed dies, so that when the detection probe detects the hot stamping position, the feeding device and the receiving device can be controlled to be suspended through the controller, the gold stamping device carries out hot stamping operation, the detection probe can position the hot stamping position on the non-woven fabric, and each gold stamping device can carry out coordinate comparison through the hot stamping position detected by the detection probe when carrying out hot stamping, the hot stamping device is enabled to execute hot stamping operation under the condition that the reference object exists, so that the hot stamping position of each hot stamping device can correspond to the hot stamping position detected by the detection probe, and the accuracy degree of the hot stamping position among the hot stamping devices is improved.

Drawings

FIG. 1 is a schematic perspective view of a stamping machine;

FIG. 2 is a schematic perspective view of a multi-station gold stamping device;

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

FIG. 4 is a schematic perspective view of the driving spindle;

FIG. 5 is a cross-sectional view of a partial gold stamping apparatus;

FIG. 6 is an enlarged view of the portion A of FIG. 5;

FIG. 7 is a schematic perspective view of a foil feeding device;

FIG. 8 is a perspective view of the clamping conveyor assembly;

fig. 9 is a cross-sectional view of the clamping conveyor assembly.

Reference numerals: 1. a frame; 11. a fixed mold; 111. a ratchet gear; 112. a rotating shaft; 113. a hand wheel; 114. a clamping cylinder; 115. a clamping block; 116. a drive screw shaft; 12. moving the mold; 121. perforating; 122. embedding holes; 123. a metal printing plate; 124. fastening a handle; 13. a ratchet bar; 2. a foil paper feeding device; 21. a feeding mounting frame; 211. putting a foil shaft; 212. a foil reeling shaft; 2121. a second belt; 213. a magnetic powder brake; 214. a foil collecting motor; 2141. a first drive belt; 215. a clamping and conveying assembly; 2151. a drive roll; 21511. a first drive pulley; 21512. a second transmission wheel; 2152. a driven roller; 21521. a mandrel; 21522. rotating the sleeve; 21523. an eccentric wheel; 21524. rotating the handle; 2153. conveying the mounting plate; 21531. adjusting the sliding chute; 2154. conveying the supporting rod; 2155. an elastic pushing assembly; 21551. a screw hole; 21552. a bolt; 21553. a compression spring; 21554. a contact block; 216. a butting ring; 2161. locking the handle; 217. a guide roller; 218. avoiding holes; 3. a drive member; 31. driving the main shaft; 311. an eccentric rod; 32. driving the host; 33. driving the slide bar; 331. an upper limiting ring; 332. a lower limit ring; 333. a pressing spring; 34. a connecting member; 35. an articulation member; 4. a feeding device; 5. a material receiving device; 6. and (6) detecting the probe.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings and examples. In which like parts are designated by like reference numerals. It should be noted that the terms "front," "back," "left," "right," "upper" and "lower" used in the following description refer to directions in the drawings, and the terms "bottom" and "top," "inner" and "outer" refer to directions toward and away from, respectively, the geometric center of a particular component.

Referring to fig. 1-9, a stamping machine comprises a feeding device 4 for releasing a to-be-printed roll material, a stamping device for stamping the to-be-printed roll material, and a receiving device 5 for collecting the to-be-printed roll material, wherein the feeding device 4 is located at a feeding end of the stamping device, the receiving device 5 is located at a discharging end of the stamping device, the to-be-printed roll material conveyed through the stamping device is tensioned between the feeding device 4 and the receiving device 5, the feeding device 4 and the receiving device 5 are of a known technology, and can convey a non-woven fabric roll material by adopting a common design.

The gold stamping device comprises a rack 1, a fixed die 11 arranged on the rack 1, a movable die 12 connected to the fixed die 11 in a sliding manner, a foil feeding device 2 arranged on the fixed die 11, and a driving part 3 used for driving the movable die 12 to be close to or far away from the fixed die 11, wherein the movable die 12 is positioned above the fixed die 11, the foil feeding device 2 is positioned above the movable die 12, and the driving part 3 is positioned below the fixed die 11; the fixed die 11 is provided with a plurality of fixed dies and is connected with the rack 1 in a sliding way, the sliding direction of the fixed die 11 on the rack 1 is the length direction of the rack 1, the rack 1 is provided with a ratchet bar 13 along the length direction, a ratchet gear 111 meshed with the ratchet bar 13 is axially and rotatably connected on the fixed die 11, the ratchet gear 111 can drive the fixed die 11 to slide along the length direction of the ratchet bar 13 in the rotating process, the fixed die 11 can rotate on the ratchet bar 13 through the ratchet gear 111 to realize the sliding on the rack 1, and therefore, the position of the fixed die 11 can be adjusted and controlled by rotating the ratchet gear 111. The number of the foil feeding devices 2, the number of the movable dies 12 and the number of the driving parts 3 are all consistent with the number of the fixed dies 11, one fixed die 11 is connected with the rack 1 in a sliding mode, one driving part 3 is arranged below the fixed die 11, one movable die 12 is arranged above the fixed die 11, the foil feeding devices 2 are arranged above the movable dies 12 and used as a whole set of gold stamping assemblies, the gold stamping assemblies are provided with a plurality of groups and can be connected on the rack 1 in a sliding mode, and the distance size among the groups of gold stamping assemblies can be conveniently adjusted. In the using process, the first group of gold stamping assemblies can firstly stamp gold patterns on the product to be printed and then can stamp gold characters on the product to be printed when being conveyed to the second group of gold stamping assemblies, so that the gold stamping operation of the product to be printed which is positioned and installed at one time can be carried out through the multiple groups of gold stamping assemblies, and the gold stamping operation efficiency is greatly improved; and each group of gold stamping assemblies can respectively perform gold stamping operation on products to be printed at different or same positions and different or same colors, so that the use flexibility of the gold stamping machine is greatly improved.

It can be further explained that the rack 1 is provided with ratchet bars 13 on both sides of the width, two ratchet bars 13 are arranged in parallel, the fixed die 11 is axially and rotatably connected with a rotating shaft 112, the length direction of the rotating shaft 112 is perpendicular to the length direction of the ratchet bars 13, two ratchet gears 111 are also arranged, the two ratchet gears 111 are arranged corresponding to the two ratchet bars 13, the two ratchet gears 111 are coaxially fixed on the rotating shaft 112, and the end part of the rotating shaft 112 is provided with a hand wheel 113 for driving the rotating shaft 112; the rotating shaft 112 can drive the two ratchet gears 111 to rotate simultaneously in the rotating process, the two ratchet bars 13 are matched to improve the synchronization degree and the stability degree of the gold stamping device in the sliding process, and the hand wheel 113 is convenient for an operator to drive the rotating shaft 112.

The fixed mold 11 is further provided with a clamp block 115 for clamping and fixing with the frame 1, and a clamp cylinder 114 for driving the clamp block 115. After the fixed die 11 slides in place, the clamping cylinder 114 can drive the clamping block 115 to abut against the rack 1, so that the fixed die 11 is fixed on the rack 1, and the gold stamping position accuracy is prevented from being influenced by displacement generated in the use process of the gold stamping device.

Foil paper loading attachment 2 is including the material loading mounting bracket 21 of being connected with fixed mould 11 slides, and the direction of sliding of material loading mounting bracket 21 on fixed mould 11 is the width direction of frame 1, can fix on fixed mould 11 and be provided with the slip rail, can fix on the material loading mounting bracket 21 and be provided with the sliding block of being connected with the slip rail slides, and the sliding block becomes the dovetail structure setting with the cross section of the rail that slides, makes the sliding block can slide along the length direction of the slip rail. The material loading mounting bracket 21 is provided with a plurality of, each material loading mounting bracket 21 arranges the setting along the width direction of frame 1, it is connected with the drive spiral shell axle 116 that is used for driving material loading mounting bracket 21 to rotate on the fixed mould 11, drive spiral shell axle 116 also is provided with a plurality of, and the quantity of drive spiral shell axle 116 keeps unanimous with the quantity of material loading mounting bracket 21, parallel arrangement between each drive spiral shell axle 116, and the length direction of drive spiral shell axle 116 is the glide direction of material loading mounting bracket 21 on fixed mould 11, a drive spiral shell axle 116 and a material loading mounting bracket 21 spiro union, be provided with on all the other material loading mounting brackets 21 and be used for dodging this drive spiral shell axle 116 dodge the hole 218, drive spiral shell axle 116 can slide along the width direction of frame 1 in the rotation process material loading mounting bracket 21. The end of the driving screw shaft 116 can be fixed and provided with a control handle, the driving screw shaft 116 can be conveniently driven to rotate, the driving screw shaft 116 can be controlled to drive each feeding mounting frame 21 to slide on the frame 1, so that the position of the foil paper feeding device 2 can be adjusted, gold stamping operation can be conveniently carried out on products to be printed at different positions, a plurality of feeding mounting frames 21 capable of being used for foil paper installation are arranged, and the flexible use degree of the foil paper feeding device 2 is favorably improved. In addition, the foil paper with the adaptive width can be used for a smaller gold stamping design, so that the utilization rate of the foil paper is greatly improved, and the manufacturing cost is favorably reduced.

The feeding mounting frame 21 is rotatably connected with a foil releasing shaft 211 and a foil collecting shaft 212, the length direction of the foil releasing shaft 211 is parallel to the length direction of the foil collecting shaft 212, a magnetic powder brake 213 and a foil collecting motor 214 for driving the foil collecting shaft 212 to rotate are arranged on the feeding mounting frame 21, the end part of the foil releasing shaft 211 is fixedly connected with the output end of the magnetic powder brake 213, and the foil collecting motor 214 can tension foil paper between the foil releasing shaft 211 and the foil collecting shaft 212 in the process of driving the foil collecting shaft 212 to rotate; above-mentioned can make the foil paper of putting between foil axle 211 and the receipts foil axle 212 can be by tensioning through the setting of magnetic particle brake 213, is favorable to improving the yields of gilding press.

The feeding mounting frame 21 is further rotatably connected with guide rollers 217 used for allowing the foil to bypass the lower portion of the movable die 12, the length direction of the guide rollers 217 is parallel to the length direction of the foil collecting shaft 212, two guide rollers 217 are arranged on one feeding mounting frame 21, and the two guide rollers 217 which are parallel to each other are respectively located on two opposite sides of the movable die 12. The foil feeding device 2 is positioned above the movable die 12, foil can be enabled to bypass between the movable die 12 and the fixed die 11 by arranging the guide roller 217, and the foil feeding device 2 is arranged on the upper portion of the stamping machine, so that the foil can be conveniently dismounted by workers.

The foil releasing shaft 211 and the foil collecting shaft 212 can be respectively positioned at two opposite sides of the movable die 12, the two guide rollers 217 are respectively positioned below the foil releasing shaft 211 and the foil collecting shaft 212, and in the process that the standby foil paper is released from the foil releasing shaft 211 and is transferred to the foil collecting shaft 212 after bypassing the guide rollers 217, the foil paper positioned below the movable die 12 can be gilded on a product to be printed, wherein the foil collecting motor 214 is used for driving the foil collecting shaft 212 to collect the used foil paper, so that the foil paper below the movable die 12 can be tensioned by pulling the used foil paper and matching with the magnetic powder brake 213. The foil collecting motor 214 can be a stepping motor, when the driving part 3 drives the movable mold 12 to gilt, the foil collecting motor 214 can be suspended, after the gilt is finished once, the foil collecting motor 214 carries the used foil below the movable mold 12, and the gilt operation is executed again after the product to be gilt below is replaced.

The machine frame 1 is also provided with a controller and a detection probe 6 for detecting the position of a hot stamping pattern on a roll material to be printed, and the controller is in communication connection with the detection probe 6, the feeding device 4, the hot stamping device and the receiving device 5; the controller can be a single chip microcomputer or a programmable controller and is used for regulating and controlling the starting and stopping of each device. During operation, a to-be-printed roll material (such as a non-woven fabric roll material) can be discharged from the feeding device 4, the to-be-printed roll material is collected by the receiving device 5 after being subjected to hot stamping by the hot stamping device, the non-woven fabric conveyed by the hot stamping device is tensioned between the feeding device 4 and the receiving device 5, the fixed die 11 can slide on the rack 1 along the length direction of the fixed die by rotating the ratchet wheel 111 in the process, the sliding position of the fixed die 11 on the rack 1 can be regulated and controlled by rotating the ratchet wheel 111, the feeding mounting frames 21 can be driven to slide on the rack 1 along the width direction of the rack by controlling the driving screw shaft 116, the position of the non-woven fabric can be regulated and controlled, and the regulated and controlled position comprises the transverse direction and the longitudinal direction, so the structure is favorable for improving the use flexibility of the hot stamping device, and the foil feeding device 2 can be matched with foil papers of different sizes to carry out hot stamping operation on the, the utilization rate of the foil paper can be effectively improved. When the gold stamping device carries out hot stamping on the non-woven fabric, the feeding device 4 and the receiving device 5 are suspended, the operation of the feeding device 4 and the receiving device 5 is resumed after the gold stamping device finishes one hot stamping, when the feeding device 4 and the receiving device 5 are suspended and the gold stamping device carries out hot stamping operation, namely, the detection probe 6 and the controller are required to regulate and control the devices, the scheme needs to regulate and control the space between the fixed dies 11, the detection probe 6 can be positioned on one side of the rack 1 close to the receiving device 5, and the space between the detection probe 6 and the fixed dies 11 is consistent with the space between the fixed dies 11, so that when the detection probe 6 detects the hot stamping position, the feeding device 4 and the receiving device 5 can be controlled to be suspended by the controller, and the gold stamping device carries out hot stamping operation, so that the detection probe 6 positions the hot stamping on the non-woven fabric by positioning, the coordinate comparison can be carried out on the hot stamping positions detected by the detection probe 6 when each hot stamping device executes hot stamping, each hot stamping device executes hot stamping operation under the condition that a reference object exists, and the hot stamping positions of each hot stamping device can correspond to the hot stamping positions detected by the detection probe 6, so that the accuracy degree of the hot stamping positions among the hot stamping devices is improved.

The feeding mounting frame 21 is provided with a clamping conveying assembly 215 capable of winding the foil paper on the foil collecting shaft 212 through clamping and conveying the foil paper, the clamping conveying assembly 215 comprises a driving roller 2151 and a driven roller 2152 which can be clamped on two opposite sides of the foil paper, the driving roller 2151 and the driven roller 2152 are rotationally connected to the feeding mounting frame 21, the length direction of the driving roller 2151 is parallel to the length direction of the driven roller 2152, the length direction of the driving roller 2151 is parallel to the length direction of the foil collecting shaft 212, the output end of the foil collecting motor 214 is in transmission connection with the driving roller 2151, and the driving roller 2151 is in transmission connection with the foil collecting shaft 212. In the process that the standby foil paper is transferred from the foil releasing shaft 211 to the foil collecting shaft 212, the foil paper is pulled and conveyed by the clamping and conveying assembly 215, the used foil paper is pulled and matched with the magnetic powder brake 213 to enable the foil paper below the movable die 12 to be tensioned, and finally the used foil paper is wound on the foil collecting shaft 212. Wherein centre gripping conveying assembly 215 centre gripping is in the foil both sides after using, therefore centre gripping conveying assembly 215 not only can realize the centre gripping of foil and carry, can also effectively avoid conveying the foil's centre gripping that influences to be located gilding matrix below because of drive roll 2151 and driven roll 2152 carry the foil, and then be favorable to improving the yields of gilding press. And the foil collecting motor 214 can drive the driving roller 2151 and the foil collecting shaft 212 to rotate at the same time, so that the transmission structure of the foil paper feeding device 2 is optimized, and the quantity requirement on power parts is reduced.

The output end of the foil collecting motor 214 is in transmission connection with the driving roller 2151, and the driving roller 2151 is in transmission connection with the foil collecting shaft 212, and the foil collecting motor can be realized by the following scheme: the end of the driving roller 2151 is coaxially and fixedly connected with a first driving wheel 21511 and a second driving wheel 21512, a first driving belt 2141 is wound between the first driving wheel 21511 and the output end of the foil collecting motor 214, a second driving belt 2121 is wound between the second driving wheel 21512 and the foil collecting shaft 212, and meshing teeth are arranged on the outer side wall of the first driving wheel 21511, the outer side wall of the output end of the foil collecting motor 214 and the inner side wall of the first driving belt 2141. The foil collecting motor 214 can drive the driving roller 2151 to rotate through the first transmission belt 2141 and the first transmission wheel 21511, the driving roller 2151 drives the foil collecting shaft 212 to synchronously rotate through the second transmission belt 2121 and the second transmission wheel 21512, the structure is simple and easy to implement, synchronous rotation of the driving roller 2151 and the foil collecting shaft 212 can be achieved, and equipment cost is reduced. In addition, the setting of meshing tooth can effectively avoid the drive belt to skid, and then is favorable to improving centre gripping conveying assembly 215's job stabilization degree.

The clamping and conveying assembly 215 further comprises two conveying mounting plates 2153 positioned at two ends of the driving roller 2151 and the driven roller 2152 in the length direction and a conveying supporting rod 2154 supported between the two conveying mounting plates 2153, the driven roller 2152 comprises mandrels 21521 of which two ends are rotatably connected to the two conveying mounting plates 2153, the two conveying mounting plates 2153 are respectively provided with an adjusting chute 21531 for the mandrels 21521 to slide, and the driven roller 2152 can be close to or far away from the driving roller 2151 in the process of sliding along the length direction of the adjusting chute 21531; the two conveying mounting plates 2153 and the plurality of conveying support rods 2154 form a frame for rotatably connecting the driving roller 2151 and the driven roller 2152, the frame is fixed on the feeding mounting frame 21, the groove width dimension of the adjusting chute 21531 is matched with the outer diameter dimension of the spindle 21521, and the spindle 21521 can rotate in the adjusting chute 21531 and can slide along the length direction of the spindle.

The two conveying mounting plates 2153 are respectively provided with an elastic pushing assembly 2155 for driving the driven roller 2152 to be close to the driving roller 2151, each elastic pushing assembly 2155 comprises a screw hole 21551 formed in the corresponding conveying mounting plate 2153, a bolt 21552 screwed into the corresponding screw hole 21551, a compression spring 21553 located in the corresponding screw hole 21551 and abutted to the bolt 21552 at one end, and an abutting block 21554 located at the other end of the compression spring 21553 and abutted to the side wall of the mandrel 21521, the screw holes 21551 are communicated with the adjusting sliding grooves 21531, and the abutting block 21554 is convexly provided with an embedding block used for being embedded into the compression spring 21553 towards one end of the compression spring 21553. The contact block 21554 is fixedly connected to one end of the compression spring 21553 through the embedding block, the outer diameter of each of the contact block 21554 and the compression spring 21553 is matched with the inner diameter of the screw hole 21551, the bolt 21552 screwed into the screw hole 21551 compresses the compression spring 21553, the contact block 21554 can be pressed on the spindle 21521 all the time, elastic contact between the driving roller 2151 and the driven roller 2152 is facilitated, the problem that the stability of foil paper clamping and conveying is affected due to over-tightening or over-loosening between the driving roller 2151 and the driven roller 2152 is avoided, the debugging difficulty of the foil paper clamping and conveying of the clamping and conveying assembly 215 can be effectively reduced through the arrangement of the elastic pushing assembly 2155, and elastic clamping and conveying of the clamping and conveying assembly 215 is facilitated.

The driven roller 2152 includes a rotating sleeve 21522 for abutting against the driving roller 2151, and an eccentric wheel 21523 for supporting the rotating sleeve 21522 and separating from the driving roller 2151, the rotating sleeve 21522 is coaxially and rotatably connected to the spindle 21521, the eccentric wheel 21523 is fixedly connected to the spindle 21521 and located at an end of the rotating sleeve 21522, the eccentric wheel 21523 is eccentrically located with respect to a rotation center of the rotating sleeve 21522, and a rotating handle 21524 is fixedly connected to an end of the spindle 21521 penetrating through a transport mounting plate 2153. The rotating sleeve 21522 is rotatably connected to the spindle 21521 by a bearing, and the eccentric 21523 at the end of the rotating sleeve 21522 can abut against the driving roller 2151, wherein the rotating sleeve 21522 can be made of rubber or metal, and is wrapped with an elastic layer to increase the friction with the driving roller 2151, while the eccentric 21523 can be made of metal, the spindle 21521 is rotated by the driven roller 2152 and the driving roller 2151 when the dimension from the center of the spindle 21521 to the edge of the eccentric 21523 is smaller than the radius of the rotating sleeve 21522, the rotating sleeve 21522 abuts against the driving roller 2151, the eccentric 21523 and the driving roller 2151 have a gap therebetween, when the dimension from the center of the spindle 21521 to the edge of the eccentric 21523 is larger than the radius of the rotating sleeve 21522, the eccentric 21521 is lifted away from the driving roller 2151 by the eccentric 21523, and the spindle 21521 slides in the adjusting chute 21531 and further compresses the compression spring 21553, and a gap is formed between the rotating sleeve 21522 and the driving roller 2151 by the eccentric wheel 21523, so that the clamping and conveying of the foil paper are suspended. Therefore, the scheme can enable the rotating sleeve 21522 to be separated from the driving roller 2151 through the eccentric wheel 21523 in the process that the rotating handle 21524 drives the mandrel 21521 to rotate when the stamping machine is debugged, so that clamping and conveying of foil paper are suspended, waste of the foil paper generated in the process of debugging the stamping machine is reduced, and the debugging flexibility of the feeding device is increased.

It should be noted that when the eccentric 21523 is spaced apart from the drive roller 2151, the clamping and conveying assembly 215 can be normally operated, and when the drive roller 2151 and the driven roller 2152 need to be separated, it is preferable that the eccentric 21523 be provided at both ends of the rotating sleeve 21522, so that the rotating sleeve 21522 can be completely separated from the drive roller 2151; in order to avoid the eccentric wheel 21523 pressing against the sidewall of the driving roller 2151 to generate indentation, a pressing wheel may be disposed on the driving roller 2151 at a position corresponding to the eccentric wheel 21523 for pressing against the eccentric wheel 21523, and the pressing wheel may also be made of metal.

Put and all coaxial sliding connection has the butt ring 216 that is used for spacing foil fiber container on foil axle 211 and the receipts foil axle 212, and butt ring 216 becomes the setting of circular cone structure towards the tip of foil fiber container, is provided with the lock handle 2161 that can be fixed with butt ring 216 on the butt ring 216. The diameter of the shaft of the foil releasing shaft 211 is smaller than the inner diameter of the foil winding drum, the diameter of the shaft of the foil collecting shaft 212 is smaller than the inner diameter of the foil winding drum, the small diameter end of the cone of the abutting ring 216 is also smaller than the inner diameters of the foil winding drum and the foil collecting drum, but the large diameter end is larger than the inner diameters of the foil winding drum and the foil collecting drum, the scheme can clamp and fix the foil winding drum and the foil collecting drum through the abutting rings 216 at the two ends after the foil winding drum and the foil collecting drum are sleeved on the foil releasing shaft 211 and the foil collecting shaft 212, the length direction positions of the foil winding drum and the foil collecting drum on the foil releasing shaft 211 and the foil collecting shaft 212 can be adjusted, the mounting position of foil is convenient to adjust, the mounting flexibility of the foil is improved, and finally the abutting ring 216 is fastened through the locking handle 2161.

The driving part 3 comprises a driving main shaft 31 axially and rotationally connected to the fixed die 11, a driving main machine 32 for driving the driving main shaft 31, and a driving slide bar 33 axially and slidably connected to the fixed die 11, one end of the driving slide bar 33 is connected with the movable die 12, the other end of the driving slide bar 33 penetrates through the fixed die 11 and then is connected with the driving main shaft 31 through a connecting piece 34, an eccentric rod 311 for rotationally connecting with the connecting piece 34 is arranged on the driving main shaft 31, the central axis of the eccentric rod 311 is parallel to and eccentrically arranged with the central axis of the driving main shaft 31, one end of the connecting piece 34 is rotationally connected with the eccentric rod 311, the other end of the connecting piece 34 is hinged with the driving slide bar 33, the hinged axial direction of the connecting piece 34 and the driving slide bar 33 is parallel, the connecting piece 34 rotatably connected to the eccentric rod 311 can drive the driving slide bar 33 to slide along the length direction thereof. In the process that the driving main shaft 31 is driven by the driving main machine 32 to rotate, the eccentric rod 311 eccentrically arranged with the driving main shaft 31 can drive the connecting piece 34 rotationally connected with the eccentric rod 311 to swing up and down, so that the driving slide rod 33 hinged with one end of the connecting piece 34 can be driven to slide along with the connecting piece, the driving slide rod 33 penetrates through the fixed mould 11 and keeps the axial sliding state, so that the driving part 3 can be positioned below the fixed mould 11 through ingenious design and also can be positioned in the frame 1, the situation that the driving part 3 is externally arranged to increase the height size and the transverse floor area of the stamping machine is avoided, the position above the stamping machine can be reserved for the arrangement of the foil feeding device 2, the foil feeding device 2 above the stamping machine is more convenient for the foil disassembly and assembly of the foil relative to the foil feeding device 2 below the stamping machine, because the foil feeding device 2 below the stamping machine needs an operator to bend over or fall down or even to drill into the frame 1 for the disassembly and assembly of the foil, the foil paper is relatively inconvenient to disassemble and assemble in a standing mode.

The movable die 12 is provided with a through hole 121 through which the driving slide bar 33 passes, the driving slide bar 33 is screwed with an upper limiting ring 331 and a lower limiting ring 332 which are positioned at the upper side and the lower side of the movable die 12, the outer diameter of the lower limiting ring 332 is larger than the inner diameter of the through hole 121, and a pressing spring 333 is abutted between the upper limiting ring 331 and the movable die 12; the lower limit ring 332 can lift the movable mold 12 upward when the driving slide 33 slides upward, and the upper limit ring 331 can press the movable mold 12 downward when the driving slide 33 slides downward, wherein the pressing spring 333 is provided to elastically press the movable mold 12, which is advantageous for uniform pressing of the movable mold 12 with the fixed mold 11. In addition, the sliding stroke of the movable die 12 and the eccentric degree of the eccentric rod 311 and the driving spindle 31 are in direct proportion, the processing and assembling precision of the movable die 12 and the driving spindle 31 can be effectively reduced through the arrangement of the pressing spring 333, and when the pressure of the movable die 12 pressing the fixed die 11 is adjusted, the compression degree of the pressing spring 333 can be adjusted through rotating the upper limiting ring 331, so that the scheme greatly simplifies the adjusting difficulty of the gold stamping device and is convenient for wide popularization and use.

The upper end surface of the movable die 12 is provided with an engagement hole 122 for engaging the pressing spring 333, the engagement hole 122 is provided coaxially with the through hole 121, and the inner diameter of the engagement hole 122 is matched with the outer diameter of the pressing spring 333. The arrangement of the scarf joint hole 122 can facilitate the positioning of the pressing spring 333, and is beneficial to the stable deformation of the pressing spring 333, thereby being beneficial to improving the use stability of the gold stamping device.

Two ends of the driving main shaft 31 in the length direction are both connected with driving slide bars 33, two connecting pieces 34 and two eccentric rods 311 are arranged, the central axes of the eccentric rods 311 at the two ends of the driving main shaft 31 are overlapped, and in the process that the driving main shaft 31 is driven by the driving host 32 to rotate, the two connecting pieces 34 which are rotatably connected with the two eccentric rods 311 can drive the two driving slide bars 33 to synchronously slide; however, the driving slide bar 33 may be disposed at one end of the driving main shaft 31, and the other end of the driving main shaft may be provided with a positioning guide structure to enable the movable mold 12 to slide up and down, but the driving slide bars 33 disposed at the two ends of the driving main shaft 31 may be beneficial to improving the synchronization degree of the two ends when the movable mold 12 is driven to slide, so as to be beneficial to horizontally pressing the movable mold 12 on the fixed mold 11, and further beneficial to improving the using stability of the bronzing device.

Two driving slide bars 33 are arranged at one end of the driving main shaft 31, the two driving slide bars 33 are arranged in parallel, one end, far away from the movable die 12, between the two driving slide bars 33 is fixedly connected with a hinge piece 35 hinged with a connecting piece 34, one end of the hinge piece 35 is fixedly connected with the two driving slide bars 33, the other end of the hinge piece is hinged with the connecting piece 34, the hinge piece 35 and the connecting piece 34 are arranged in parallel in the hinge axial direction and the eccentric rod 311 axial direction, the driving main machine 32 drives the driving main shaft 31 to rotate, and the connecting piece 34 rotatably connected with the eccentric rod 311 drives the two driving slide bars 33 to synchronously. The smooth degree of the sliding of the driving main shaft 31 driving the fixed mould 11 is increased by increasing the driving slide bar 33, and the phenomena of rotation, inclination and the like of the fixed mould 11 are effectively avoided.

The end face of the movable die 12 facing the fixed die 11 is slidably connected with a plurality of metal printing plates 123, the number of the metal printing plates 123 is consistent with that of the feeding mounting frames 21, the sliding direction of each metal printing plate 123 is the width direction of the frame 1, and the metal printing plates 123 are provided with fastening handles 124 capable of fixing the metal printing plates 123 on the movable die 12. The movable mould 12 both sides can be provided with the rail that slides that is used for supplying metal printing plate 123 to slide to connect, and can fix on the metal printing plate 123 be provided with the gliding piece of rail sliding connection that slides, fastening handle 124 spiro union is on the gliding piece, thereby fastening handle 124 runs through the gliding piece and when with the rail butt that slides, realizes fixing metal printing plate 123 on movable mould 12, and this simple structure easily implements, is favorable to reducing construction cost to the regulation of sliding of metal printing plate 123 of being convenient for.

The arrangement of the scheme enables the metal printing plate 123 to slide on the movable die 12, and the metal printing plate can be matched with each feeding mounting frame 21 to perform gold stamping operation on different positions on a product to be printed, so that the use flexibility of the gold stamping machine is further improved, and the application range is wide. Meanwhile, a plurality of products to be printed can be subjected to one-time gold stamping operation by matching with a plurality of groups of metal printing plates 123 and the feeding mounting rack 21, so that the working efficiency of the gold stamping machine is improved.

The above is only a preferred embodiment of the present invention, and the protection scope of the present invention is not limited to the above-mentioned embodiments, and all technical solutions belonging to the idea of the present invention belong to the protection scope of the present invention. It should be noted that modifications and embellishments within the scope of the invention may occur to those skilled in the art without departing from the principle of the invention, and are considered to be within the scope of the invention.

Claims (10)

1. The utility model provides a gilding press, including be used for the release to treat feed arrangement (4) of seal coil stock and be used for treating that the seal coil stock carries out the gilding device of thermoprint and be used for collecting material collecting device (5) of treating the seal coil stock, feed arrangement (4) are located the feed end of gilding device, material collecting device (5) are located the discharge end of gilding device, carry through gilding device treat that the seal coil stock is tensioned between feed arrangement (4) and material collecting device (5), characterized by: the gold stamping device comprises a rack (1), a fixed die (11) arranged on the rack (1), a movable die (12) connected to the fixed die (11) in a sliding manner, a foil paper feeding device (2) arranged on the fixed die (11), and a driving part (3) used for driving the movable die (12) to be close to or far away from the fixed die (11), wherein the movable die (12) is positioned above the fixed die (11), the foil paper feeding device (2) is positioned above the movable die (12), and the driving part (3) is positioned below the fixed die (11);

a plurality of fixed moulds (11) are arranged and are connected with the frame (1) in a sliding way, the sliding direction of the fixed die (11) on the frame (1) is the length direction of the frame (1), a ratchet bar (13) is arranged on the rack (1) along the length direction thereof, a ratchet gear (111) meshed with the ratchet bar (13) is axially and rotationally connected on the fixed die (11), the ratchet gear (111) can drive the fixed die (11) to slide along the length direction of the ratchet bar (13) in the rotating process, the number of the foil paper feeding devices (2), the movable moulds (12) and the driving parts (3) is consistent with that of the fixed moulds (11), the frame (1) is also provided with a controller and a detection probe (6) for detecting the position of a hot stamping pattern on a roll material to be printed, the controller is in communication connection with the detection probe (6), the feeding device (4), the gold stamping device and the receiving device (5);

the foil paper feeding device (2) comprises a feeding mounting frame (21) connected with a fixed mold (11) in a sliding mode, the sliding direction of the feeding mounting frame (21) on the fixed mold (11) is the width direction of the rack (1), the feeding mounting frame (21) is provided with a plurality of devices, each feeding mounting frame (21) is arranged and arranged along the width direction of the rack (1), a driving spiral shaft (116) used for driving the feeding mounting frame (21) is connected to the fixed mold (11) in a rotating mode, the driving spiral shaft (116) is also provided with a plurality of devices, the number of the driving spiral shafts (116) is consistent with the number of the feeding mounting frames (21), the driving spiral shafts (116) are arranged in parallel, the length direction of the driving spiral shafts (116) is the sliding direction of the feeding mounting frame (21) on the fixed mold (11), and one driving spiral shaft (116) is in threaded connection with one feeding mounting frame (21), the rest of the feeding mounting frames (21) are provided with avoidance holes (218) used for avoiding the driving screw shaft (116), and the driving screw shaft (116) can slide along the width direction of the rack (1) in the rotating process of the feeding mounting frames (21).

2. The bronzing machine of claim 1, wherein: the feeding mounting frame (21) is rotatably connected with a foil releasing shaft (211) and a foil collecting shaft (212), the length direction of the foil releasing shaft (211) is parallel to the length direction of the foil collecting shaft (212), a magnetic powder brake (213) and a foil collecting motor (214) used for driving the foil collecting shaft (212) to rotate are arranged on the feeding mounting frame (21), the end part of the foil releasing shaft (211) is fixedly connected with the output end of the magnetic powder brake (213), and the foil collecting motor (214) can tension foil paper between the foil releasing shaft (211) and the foil collecting shaft (212) when the magnetic powder brake (213) drives the foil collecting shaft (212) to rotate;

the automatic foil winding machine is characterized in that the feeding mounting frame (21) is further rotatably connected with guide rollers (217) used for foil paper to bypass the lower portion of the movable die (12), the length direction of the guide rollers (217) is parallel to the length direction of the foil winding shaft (212), two guide rollers (217) are arranged on one feeding mounting frame (21), and the two guide rollers (217) which are parallel to each other are respectively located on two opposite sides of the movable die (12).

3. The bronzing machine of claim 2, wherein: be provided with on material loading mounting bracket (21) and can transmit the centre gripping conveying subassembly (215) on the foil paper winding receipts foil axle (212) through the centre gripping, centre gripping conveying subassembly (215) are including drive roller (2151) and driven voller (2152) that can centre gripping in the relative both sides of foil paper, drive roller (2151) and driven voller (2152) all rotate to be connected on material loading mounting bracket (21) to the length direction of drive roller (2151) and the length direction parallel arrangement of driven voller (2152), the length direction of drive roller (2151) and the length direction parallel arrangement who receives foil axle (212), the output and the drive roller (2151) transmission of receipts foil motor (214) are connected, drive roller (2151) is connected with receipts foil axle (212) transmission.

4. A stamping press according to claim 3, wherein: the clamping and conveying assembly (215) further comprises two conveying mounting plates (2153) positioned at two ends of the driving roller (2151) and the driven roller (2152) in the length direction and a conveying supporting rod (2154) supported between the two conveying mounting plates (2153), the driven roller (2152) comprises mandrels (21521) with two ends rotatably connected to the two conveying mounting plates (2153), the two conveying mounting plates (2153) are respectively provided with an adjusting chute (21531) for the mandrels (21521) to slide, and the driven roller (2152) can be close to or far away from the driving roller (2151) in the process of sliding along the length direction of the adjusting chute (21531);

all be provided with on two transport mounting panel (2153) and be used for driving driven roller (2152) and be close to elasticity propelling movement subassembly (2155) of drive roller (2151), elasticity propelling movement subassembly (2155) including set up screw (21551) on transport mounting panel (2153), and bolt (21552) in screw (21551) with the spiro union, and be located screw (21551) one end and compression spring (21553) butt of bolt (21552) and be located compression spring (21553) other end can with dabber (21521) lateral wall butt contact block (21554), screw (21551) and regulation spout (21531) switch on the setting, contact block (21554) are equipped with towards compression spring (21553) one end protruding and are used for imbedding the scarf joint piece in compression spring (21553).

5. The bronzing machine of claim 4, wherein: the driven roller (2152) comprises a rotating sleeve (21522) used for being abutted to the driving roller (2151) and an eccentric wheel (21523) used for supporting the rotating sleeve (21522) to be separated from the driving roller (2151), the rotating sleeve (21522) is coaxially and rotatably connected to the mandrel (21521), the eccentric wheel (21523) is fixedly connected with the mandrel (21521) and is located at the end part of the rotating sleeve (21522), the eccentric wheel (21523) and the rotating center of the rotating sleeve (21522) are eccentrically arranged, and the end part of the mandrel (21521) penetrating through a conveying installation plate (2153) is fixedly connected with a rotating handle (21524).

6. A stamping press according to claim 2 or 5, wherein: put foil axle (211) and receive foil axle (212) and go up equal coaxial slip and be connected with butt ring (216) that are used for spacing foil fiber container, butt ring (216) become the setting of circular cone structure towards the tip of foil fiber container, be provided with on butt ring (216) and can be with fixed lock handle (2161) of butt ring (216).

7. The bronzing machine of claim 1, wherein: the driving part (3) comprises a driving main shaft (31) which is axially and rotatably connected to the fixed die (11), a driving host (32) which is used for driving the driving main shaft (31), and a driving slide rod (33) which is axially and slidably connected to the fixed die (11), wherein one end of the driving slide rod (33) is connected with the movable die (12), the other end of the driving slide rod penetrates through the fixed die (11) and is connected with the driving main shaft (31) through a connecting piece (34), an eccentric rod (311) which is used for being rotatably connected with the connecting piece (34) is arranged on the driving main shaft (31), the central axis of the eccentric rod (311) is parallel to the central axis of the driving main shaft (31) and is eccentrically arranged, one end of the connecting piece (34) is rotatably connected with the eccentric rod (311), the other end of the connecting piece is hinged with the driving slide rod (33), and the connecting piece (34) and the driving slide rod (, when the driving main shaft (31) is driven by the driving host (32) to rotate, the connecting piece (34) rotationally connected with the eccentric rod (311) can drive the driving slide rod (33) to slide along the length direction of the driving slide rod.

8. The bronzing machine of claim 7, wherein: the movable die (12) is provided with a through hole (121) for the penetration of a driving slide rod (33), the driving slide rod (33) is in threaded connection with an upper limiting ring (331) and a lower limiting ring (332) which are positioned at the upper side and the lower side of the movable die (12), the outer diameter of the lower limiting ring (332) is larger than the inner diameter of the through hole (121), and a pressing spring (333) is abutted between the upper limiting ring (331) and the movable die (12);

the upper end face of the movable die (12) is provided with an embedding hole (122) for being embedded by a pressing spring (333), the embedding hole (122) and the through hole (121) are coaxially arranged, and the inner diameter of the embedding hole (122) is matched with the outer diameter of the pressing spring (333).

9. A stamping press according to claim 7 or 8, wherein: two ends of the driving main shaft (31) in the length direction are both connected with driving slide rods (33), two connecting pieces (34) and two eccentric rods (311) are arranged, the central axes of the eccentric rods (311) at the two ends of the driving main shaft (31) are overlapped, and in the process that the driving main shaft (31) is driven by the driving main machine (32) to rotate, the two connecting pieces (34) which are rotatably connected with the two eccentric rods (311) can drive the two driving slide rods (33) to synchronously slide;

drive main shaft (31) one end is provided with two drive slide bar (33), two drive slide bar (33) parallel arrangement, keeps away from the one end fixedly connected with of movable mould (12) between two drive slide bar (33) and is used for with connecting piece (34) articulated elements (35), articulated elements (35) one end and two drive slide bar (33) fixed connection, the other end is articulated with connecting piece (34), articulated elements (35) and the articulated axial of connecting piece (34) and the axial parallel arrangement of eccentric rod (311), driving host (32) drive main shaft (31) and rotate the in-process, and connecting piece (34) of being connected with eccentric rod (311) rotate and drive two drive slide bar (33) synchronous slip through articulated elements (35).

10. The bronzing machine of claim 1, wherein: the end face, facing the fixed die (11), of the movable die (12) is connected with a plurality of metal printing plates (123) in a sliding mode, the number of the metal printing plates (123) is consistent with that of the feeding mounting frames (21), the sliding direction of each metal printing plate (123) is the width direction of the rack (1), and fastening handles (124) capable of fixing the metal printing plates (123) on the movable die (12) are arranged on the metal printing plates (123).

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