CN214774759U - Gold stamping and die cutting dual-purpose machine - Google Patents

Abstract

The utility model relates to a gilt cross cutting dual-purpose machine, the test platform comprises a support, the impression subassembly, send the gold foil paper subassembly, pay-off subassembly and ejection of compact subassembly, the impression subassembly includes bottom plate and clamp plate, bottom plate fixed connection frame, clamp plate swing joint frame, send the gold foil paper subassembly including installing in the transport axle of bottom plate top and installing in the recovery axle of bottom plate below, the pay-off subassembly is including a plurality of material spares of getting of locating the loading board of frame and swing joint frame cunning, ejection of compact subassembly is including setting up in the transmission band of clamp plate below and the play flitch of being connected transmission band one end, it is cunning to locate the frame to go out the flitch. When the gold stamping and die cutting dual-purpose machine is used for gold stamping, the conveying shaft and the recovery shaft realize the conveying of gold foil paper, the material taking piece places the raw materials on the bearing plate on the pressing plate, the pressing plate is close to the bottom plate, and the raw materials and the gold foil paper are pressed together to realize the gold stamping; when die cutting is carried out, the cutting die plate is arranged on the bottom plate, the raw materials on the bearing plate are placed on the pressing plate by the material taking part, the pressing plate is close to the bottom plate, and the raw materials and the cutting die are pressed together to realize die cutting.

Description

Gold stamping and die cutting dual-purpose machine

Technical Field

The utility model relates to a gilt equipment technical field especially relates to a gilt cross cutting dual-purpose machine.

Background

The gold stamping process is a special printing process without ink, the gold stamping refers to a process of hot stamping an electrochemical aluminum foil to the surface of a printing stock at a certain temperature and pressure, the gold stamping is a dry processing method, and a workpiece can be immediately packaged and transported after being subjected to gold stamping, so the gold stamping technology is widely adopted at present, the application range of the hot stamping is continuously expanded, and a gold stamping machine is equipment for completing the gold stamping process.

At present, manual gold stamping or semi-automatic gold stamping is carried out on a plurality of pieces of gift surface paper, a plurality of hands are needed, the production efficiency is low, manual gold stamping needs manual paper placing and strong force pulling of a link mechanism for gold stamping, the gold stamping is carried out for one day, the arm is sore, the production efficiency is not high, and the working strength is high; the semi-automatic stamping machine needs manual paper placement, the stamping range is limited, the efficiency is not very high, potential safety hazards exist, and in addition, the function of the stamping machine is single.

SUMMERY OF THE UTILITY MODEL

Therefore, it is necessary to provide a high-efficiency, stable and multifunctional bronzing and die cutting machine in order to solve the above problems.

The utility model provides a gilt cross cutting dual-purpose machine, includes frame, impression subassembly, send gold foil paper subassembly, pay-off subassembly and ejection of compact subassembly, the impression subassembly includes bottom plate and clamp plate, bottom plate fixed connection the frame, clamp plate swing joint the frame, send gold foil paper subassembly including install in the delivery axle of bottom plate top with install in the recovery axle of bottom plate below, the pay-off subassembly is including slidely locating the loading board and the swing joint of frame a plurality of material pieces of getting of frame, the ejection of compact subassembly including set up in the transmission band of clamp plate below is with being connected the play flitch of transmission band one end, it locates to go out the flitch cunning the frame.

In one embodiment, the stamping assembly further comprises a heating plate, a movable table and an eccentric shaft, the heating plate is connected with the base plate, the movable table is hinged with the base, the pressing plate is connected with the movable table, and the eccentric shaft penetrates through one end, far away from the base, of the movable table.

In one embodiment, the stamping assembly further comprises an angle adjusting piece, a stamping pull rod, a hook arm and a first synchronizing shaft, the angle adjusting piece is hinged to one end of the eccentric shaft, one end of the stamping pull rod is hinged to the angle adjusting piece, the other end of the stamping pull rod is hinged to the hook arm, and the first synchronizing shaft penetrates through the hook arm and the movable table.

In one embodiment, the paper feeding device further comprises a side pushing assembly, the side pushing assembly comprises a side pushing cam, a second synchronizing shaft, a side pushing piece, a side pushing connecting rod, a side pushing guide rod, a clamping piece, a side pushing shaft, a positioning piece, a paper placing rod and a limiting piece, the second synchronizing shaft is provided with the side push cam and the movable platform in a penetrating way, the side push piece is hinged on one side of the movable platform, the side push cam is used for driving the side push piece to be close to or far away from the side push connecting rod, the side push connecting rod is connected with one side of the pressing plate close to the movable table, the side push guide rod is connected with the movable table, the clamping piece is connected with the side push guide rod, the side push shaft is hinged with the clamping piece, one end of the positioning piece is connected with the side pushing connecting rod, the other end of the positioning piece is connected with the side pushing shaft, one end of the paper placing rod is connected with the side pushing shaft, and the other end of the paper placing rod is connected with the limiting piece.

In one embodiment, the power assembly further comprises a driving power element, a first rotating shaft, a second rotating shaft, a third rotating shaft, a fourth rotating shaft, a rotating arm and a pulling arm, wherein the driving power element is used for driving the first rotating shaft to rotate, the first rotating shaft is used for driving the second rotating shaft to rotate, the third rotating shaft is used for driving the fourth rotating shaft to rotate, one end of the rotating arm is hinged to the fourth rotating shaft, the other end of the rotating arm is hinged to the pulling arm, and one end, far away from the rotating arm, of the pulling arm is hinged to the eccentric shaft.

In one of them embodiment, still include separation assembly, separation assembly includes separation guide arm, parting strip, separation cam, separation drive wheel, separation action wheel, separation from driving wheel and separation connecting band, the separation guide arm set up in one side of bottom plate, the parting strip is slided and is located the separation guide arm, the parting strip set up in the board that generates heat is close to one side of mobile station, the separation cam is connected the third pivot, the separation drive wheel articulate in one side of frame, the separation cam is used for the drive the separation drive wheel rotates, the separation drive wheel with the meshing of separation action wheel, the one end of separation connecting band is connected the separation action wheel, and the other end is connected the separation is from the driving wheel, the parting strip is connected the separation connecting band.

In one embodiment, the gold foil paper feeding assembly further comprises a paper outlet member, a paper outlet first cam, a discharge pull rod, a paper outlet swing arm, a paper outlet frame, a paper outlet clamp, a paper clamping swing arm, a paper outlet second cam and a paper outlet connecting rod, wherein one end of the paper outlet member is connected with the fourth rotating shaft, the paper outlet first cam is connected with the fourth rotating shaft and used for driving the paper outlet member to rotate, one end of the discharge pull rod is connected with the paper outlet first cam, the other end of the discharge pull rod is hinged with the paper outlet swing arm, the paper outlet swing arm is connected with the third rotating shaft, one end of the paper outlet frame is connected with the paper outlet swing arm, the other end of the paper outlet frame is hinged with the paper outlet clamp, the paper clamping swing arm is hinged with one side of the paper outlet frame, the paper outlet second cam is connected with the third rotating shaft, the paper outlet second cam is used for driving the paper clamping swing arm to rotate, and one end of the paper outlet connecting rod is hinged with the paper clamping swing arm, the other end is hinged with the paper outlet clamp.

In one embodiment, the feeding assembly further includes a first feeding cam, a first rear swing arm, a first pull rod, a first front swing arm, a material taking bracket and a connecting pipe, the first feeding cam is connected to one end of the third rotating shaft, the first feeding cam is used for driving the first rear swing arm to rotate, the first rear swing arm and the first front swing arm are hinged to one side of the base respectively, one end of the first pull rod is hinged to one end of the first rear swing arm, the other end of the first pull rod is hinged to the first front swing arm, the material taking bracket is hinged to one end of the first front swing arm, the connecting pipe is connected to the material taking bracket, and each material taking member is connected to the connecting pipe.

In one embodiment, the feeding assembly further includes a second feeding cam, a second rear swing arm, a second pull rod, a second front swing arm, and a third pull rod, the second feeding cam is connected to one end of the third rotating shaft, the second feeding cam is used to drive the second rear swing arm to rotate, the second rear swing arm and the second front swing arm are respectively hinged to one side of the base, one end of the second pull rod is hinged to one end of the second rear swing arm, the other end of the second pull rod is hinged to the second front swing arm, one end of the third pull rod is hinged to the second front swing arm, and the other end of the third pull rod is hinged to one end of the material taking support.

In one of them embodiment, still include drive assembly, drive assembly includes transmission shaft, transmission connecting band, gets material power component, relief valve, apron and gets the material cam, the transmission shaft articulate in the frame, the one end of transmission connecting band is connected the second pivot, and the other end is connected the transmission shaft, it communicates to get material power component the connecting pipe, the relief valve intercommunication get material power component, the apron is connected the relief valve, it connects to get the material cam the transmission shaft, it is used for the drive to get the material cam the apron rotates.

Compared with the prior art, the beneficial effects of the utility model are as follows:

the utility model discloses a gilt dual-purpose machine of cross cutting, when gilt, the transport axle realizes the transport of gold foil paper with retrieving the axle, gets the material piece and places the raw materials on the loading board in the clamp plate, and the clamp plate is close to the bottom plate again, realizes gilt with the pressfitting of gold foil paper with the raw materials; when die cutting is carried out, the cutting die plate is arranged on the bottom plate, the material taking part places the raw material on the bearing plate on the pressing plate, the pressing plate is close to the bottom plate, and the raw material and the cutting die are pressed together to realize die cutting; this gilt cross cutting dual-purpose machine compact structure, high-efficient stable, the function is various.

Drawings

Fig. 1 is a schematic view of an assembly structure of a bronzing and die cutting dual-purpose machine according to a preferred embodiment of the present invention;

FIG. 2 is a schematic view of another angle of the bronzing and die-cutting machine shown in FIG. 1;

FIG. 3 is a partial schematic view of the dual purpose bronzing and die cutting machine of FIG. 1;

FIG. 4 is a schematic view of a power assembly and a gold foil feeding assembly in the dual-purpose machine shown in FIG. 2;

FIG. 5 is a partial schematic view of the dual purpose bronzing and die cutting machine of FIG. 2;

FIG. 6 is an enlarged schematic view of circle A in FIG. 5;

fig. 7 is a schematic view of a stamping assembly, a separating assembly and a side pushing assembly in the bronzing and die cutting machine shown in fig. 1.

Reference is made to the accompanying drawings in which:

a gold stamping and die cutting dual-purpose machine 100;

the stamping device comprises a base 10, a base 11, a first side plate 12, a second side plate 13, a stamping component 20, a bottom plate 21, a pressing plate 22, a heating plate 23, a movable table 24, an eccentric shaft 25, an angle adjusting piece 26, a stamping pull rod 27, a hook arm 28, a power component 30, a first rotating shaft 31, a second rotating shaft 32, a third rotating shaft 33, a fourth rotating shaft 34, a rotary arm 35 and a pull arm 36;

the gold foil paper feeding device comprises a gold foil paper feeding component 40, a conveying shaft 41, a paper discharging piece 42, a paper discharging first cam 43, a paper discharging swing arm 44, a paper discharging frame 45, a paper discharging clamp 46, a paper clamping swing arm 47, a paper discharging second cam 48, a paper discharging connecting rod 49, a feeding component 50, a bearing plate 51, a material discharging piece 52, a first feeding cam 53, a first rear swing arm 54, a first front swing arm 55, a material discharging support 56, a connecting pipe 57, a second feeding cam 58 and a second front swing arm 59;

the paper feeding device comprises a driving assembly 60, a transmission shaft 61, a pressure relief valve 62, a cover plate 63, a material taking cam 64, a separating assembly 70, a separating guide rod 71, a separating strip 72, a separating cam 73, a separating driving wheel 74, a separating driving wheel 75, a separating driven wheel 76, a side pushing assembly 80, a side pushing cam 81, a side pushing piece 82, a side pushing connecting rod 83, a side pushing guide rod 84, a clamping piece 85, a side pushing shaft 86, a positioning piece 87, a paper placing rod 88 and a limiting piece 89;

the device comprises a discharging assembly 90, a discharging plate 91, a discharging driving shaft 92, a discharging guide rail 93, a stepping shaft 94, a lifting first chain wheel 95 and a lifting second chain wheel 96.

Detailed Description

In order to facilitate understanding of the present invention, the present invention will be described more fully below. The invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.

It will be understood that when an element is referred to as being "secured to" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. When the number of an element is referred to as "a plurality," it can be any number of two or more. The terms "vertical," "horizontal," "left," "right," and the like as used herein are for illustrative purposes only and do not represent the only embodiments.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used herein in the description of the invention is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. As used herein, the term "and/or" includes any and all combinations of one or more of the associated listed items.

Referring to fig. 1 to 7, in order to provide a dual-purpose gold stamping and die cutting machine 100 according to a preferred embodiment of the present invention, the dual-purpose gold stamping and die cutting machine includes a machine base 10, an imprinting assembly 20, a gold foil feeding assembly 40, a feeding assembly 50 and a discharging assembly 90, the imprinting assembly 20 includes a bottom plate 21 and a pressing plate 22, the gold foil feeding assembly 40 includes a conveying shaft 41 installed above the bottom plate 21 and a recycling shaft (not shown) installed below the bottom plate 21, the feeding assembly 50 includes a bearing plate 51 slidably installed on the machine base 10 and a plurality of material taking members 52 movably connected to the machine base 10, and the discharging assembly 90 includes a conveying belt (not shown) installed below the pressing plate 22 and a discharging plate 91 connected to one end of the conveying belt. In the dual-purpose gold stamping and die cutting machine 100 of the embodiment, when gold stamping is performed, the conveying shaft 41 and the recovery shaft realize the conveying of the gold foil paper, the material taking part 52 places the raw material on the bearing plate 51 on the pressing plate 22, the pressing plate 22 is close to the bottom plate 21, and the raw material and the gold foil paper are pressed to realize gold stamping; when die cutting is performed, the cutting die plate is arranged on the bottom plate 21, the material taking piece 52 places the raw material on the bearing plate 51 on the pressing plate 22, the pressing plate 22 is close to the bottom plate 21, and the raw material and the cutting die are pressed together to achieve die cutting.

As shown in fig. 1, in the present embodiment, the base 10 includes a base 11, a first side plate 12 and a second side plate 13, and the first side plate 12 and the second side plate 13 are respectively connected to two sides of the base 11.

As shown in fig. 1 to 3, the stamping assembly 20 includes a bottom plate 21 and a pressing plate 22, the bottom plate 21 is fixedly connected to two sides of the machine base, the pressing plate 22 is movably connected to two sides of the machine base, optionally, one end of the pressing plate 22 close to the base 11 is connected to a plurality of fixing blocks, and the fixing blocks are used for placing raw materials; the stamping component 20 further comprises a heating plate 23, a movable table 24 and an eccentric shaft 25, wherein the heating plate 23 is connected with the bottom plate 21, the movable table 24 is hinged with the machine base 10, the pressing plate 22 is connected with the movable table 24, and the eccentric shaft 25 penetrates through one end, far away from the machine base 10, of the movable table 24. The stamping assembly 20 further comprises an angle adjusting piece 26, a stamping pull rod 27, a hook arm 28 and a first synchronizing shaft (not shown), wherein the angle adjusting piece 26 is hinged to one end of the eccentric shaft 25, one end of the stamping pull rod 27 is hinged to the angle adjusting piece 26, the other end of the stamping pull rod 27 is hinged to the hook arm 28, the first synchronizing shaft penetrates through the hook arm 28 and the movable table 24, optionally, the angle adjusting piece 26 is mounted at one end, close to the first side plate 12, of the eccentric shaft 25, and the first synchronizing shaft penetrates through the hook arm 28, the first side plate 12 and the movable table 24.

Referring to fig. 3 and 4, the bronzing and die-cutting dual-purpose machine 100 further includes a power assembly 30, the power assembly 30 includes a driving power element (not shown), a first rotating shaft 31, a second rotating shaft 32, a third rotating shaft 33, a fourth rotating shaft 34, a rotating arm 35 and a pulling arm 36, the driving power element is used for driving the first rotating shaft 31 to rotate, the first rotating shaft 31 is used for driving the second rotating shaft 32 to rotate, the third rotating shaft 33 is used for driving the fourth rotating shaft 34 to rotate, one end of the rotating arm 35 is hinged to the fourth rotating shaft 34, the other end is hinged to the pulling arm 36, and one end of the pulling arm 36 away from the rotating arm 35 is hinged to the eccentric shaft 25 to drive the movable table 24 to rotate around the machine base 10; optionally, two radial arms 35 and two pull arms 36 are provided, and are in one-to-one correspondence, and the two radial arms 35 are respectively hinged to two ends of the eccentric shaft 25; further, the driving power element drives the first rotating shaft 31 to rotate through a belt, and the first rotating shaft 31, the second rotating shaft 32, the third rotating shaft 33 and the fourth rotating shaft 34 are connected through gears, so that synchronous motion is ensured.

As shown in fig. 1 and 4, the gold foil feeding assembly 40 includes a conveying shaft 41 installed above the bottom plate 21 and a recovery shaft (not shown) installed below the bottom plate 21, the gold foil feeding assembly 40 further includes a transmission conveying shaft (not shown) installed at one side of the conveying shaft 41 and a recovery conveying shaft (not shown) installed at one side of the recovery shaft, the gold foil is slidably disposed at one side of the heating plate 23 close to the pressing plate 22 through the conveying shaft 41 and the transmission conveying shaft, and then recovered through the recovery conveying shaft and the recovery shaft. The gold foil paper feeding assembly 40 further includes a paper discharging member 42, a paper discharging first cam 43, a material discharging pull rod (not shown), a paper discharging swing arm 44, a paper discharging frame 45, a paper discharging clamp 46, a paper clamping swing arm 47, a paper discharging second cam 48 and a paper discharging link 49, one end of the paper-out piece 42 is connected with the fourth rotating shaft 34, the paper-out first cam 43 is used for driving the paper-out piece 42 to rotate, one end of the discharging pull rod is connected with the paper-out first cam 43, the other end of the discharging pull rod is hinged with the paper-out swing arm 44, the paper-out swing arm 44 is connected with the third rotating shaft 33, one end of the paper-out frame 45 is connected with the paper-out swing arm 44, the other end of the paper-out frame 45 is hinged with the paper-out clamp 46, the paper-out swing arm 47 is hinged with one side of the paper-out frame 45, the paper-out second cam 48 is connected with the third rotating shaft 33, the paper-out second cam 48 is used for driving the paper-clamping swing arm 47 to rotate, one end of the paper-out connecting rod 49 is hinged with the paper-clamping swing arm 47, and the other end of the paper-out clamp 46. Optionally, the paper discharging member 42 is fork-shaped, the two paper clamping swing arms 47, the two paper discharging second cams 48 and the two paper discharging connecting rods 49 are respectively in one-to-one correspondence, the two paper clamping swing arms 47 are respectively hinged to two sides of the paper discharging frame 45, the two paper discharging second cams 48 are different in shape, and the two paper discharging connecting rods 49 are respectively hinged to two ends of the paper discharging clamp 46; the two paper-out second cams 48 respectively drive the two paper-out connecting rods 49 to rotate asynchronously, so that the paper-out clamp 46 is lifted, and the gold foil paper is conveyed.

As shown in fig. 1 and fig. 5, the feeding assembly 50 includes a bearing plate 51 slidably disposed on the base and a plurality of material taking members 52 movably connected to the base, wherein the bearing plate 51 is used for placing raw materials; the feeding assembly 50 further comprises a first feeding cam 53, a first rear swing arm 54, a first pull rod (not shown), a first front swing arm 55, a material taking bracket 56 and a connecting pipe 57, the first feeding cam 53 is connected with one end of the third rotating shaft 33, the first feeding cam 53 is used for driving the first rear swing arm 54 to rotate, the first rear swing arm 54 and the first front swing arm 55 are hinged to one side of the second side plate 13 respectively, one end of the first pull rod is hinged to one end of the first rear swing arm 54, the other end of the first pull rod is hinged to the first front swing arm 55, the material taking bracket 56 is hinged to one end, away from the first pull rod, of the first front swing arm 55, the connecting pipe 57 is connected with the material taking bracket 56, and each material taking piece 52 is connected with the connecting pipe 57; optionally, the material taking part 52 is a suction nozzle, the connecting pipe 57 is communicated with the material taking part 52, and the connecting pipe 57 is a hollow pipe.

In an embodiment, the feeding assembly 50 further includes a second feeding cam 58, a second rear swing arm (not shown), a second pull rod (not shown), a second front swing arm 59, and a third pull rod (not shown), the second feeding cam 58 is connected to one end of the third rotating shaft 33, the second feeding cam 58 is used to drive the second rear swing arm to rotate, the second rear swing arm and the second front swing arm 59 are respectively hinged to one side of the second side plate 13, one end of the second pull rod is hinged to one end of the second rear swing arm, the other end of the second pull rod is hinged to the second front swing arm 59, one end of the third pull rod is hinged to the second front swing arm 59, and the other end of the third pull rod is hinged to one end of the material taking bracket 56 away from the connecting pipe 57. Optionally, the first feeding cam 53 and the second feeding cam 58 have different shapes, and the first front swing arm 55 and the second front swing arm 59 are hinged to the second side plate 13 through a swing arm shaft. Through the cooperation of first pay-off cam 53, first back swing arm 54, first pull rod and first front swing arm 55, drive and get material support 56 and realize the aversion between loading board 51 and clamp plate 22, simultaneously, through the cooperation of second pay-off cam 58, second back swing arm, second pull rod, second front swing arm 59 and third pull rod, make and get material 52 and shift the raw materials to clamp plate 22 from loading board 51.

As shown in fig. 6, in order to control the material taking and discharging of the material taking piece 52, the gold stamping and die cutting dual-purpose machine 100 further comprises a driving assembly 60, the driving assembly 60 comprises a transmission shaft 61, a transmission connecting belt (not shown), a material taking power element (not shown), a pressure relief valve 62, a cover plate 63 and a material taking cam 64, the transmission shaft 61 is hinged to the machine base, one end of the transmission connecting belt is connected with the second rotating shaft 32, the other end of the transmission connecting belt is connected with the transmission shaft 61, the material taking power element is communicated with the connecting pipe 57, the pressure relief valve 62 is communicated with the material taking power element, the cover plate 63 is connected with the pressure relief valve 62, the material taking cam 64 is connected with the transmission shaft 61, and the material taking cam 64 is used for driving the cover plate 63 to rotate; the cover plate 63 is driven to rotate by the material taking cam 64, and the work of the pressure release valve 62 is controlled, so that whether the connecting pipe 57 is ventilated or not is controlled, and material taking and discharging of the material taking piece 52 are realized.

As shown in fig. 3 and 7, after processing, in order to separate the raw material from the gold foil paper, the gold stamping and die cutting dual-purpose machine 100 further includes a separating assembly 70, the separating assembly 70 includes a separating guide rod 71, a separating strip 72, a separating cam 73, a separating driving wheel 74, a separating driving wheel 75, a separating driven wheel 76 and a separating connecting belt (not shown), the separating guide rod 71 is disposed at one side of the bottom plate 21, the separating strip 72 is slidably disposed on the separating guide rod 71, the separating strip 72 is disposed at one side of the heat-generating plate 23 close to the movable table 24, the separating cam 73 is connected to the third rotating shaft 33, the separating driving wheel 74 and the separating driving wheel 75 are both hinged at one side of the first side plate 12, the separating cam 73 is used for driving the separating driving wheel 74 to rotate, the separating driving wheel 74 is engaged with the separating driving wheel 75, the separating driven wheel 76 is hinged at the bottom plate 21, one end of the separating connecting belt is connected to the separating driving wheel 75, the other end is connected to the separating driven wheel 76, the separation connecting strip is connected with one end of the isolation strip 72 to drive the isolation strip 72 to lift. Optionally, the number of the separation guide rods 71 is two, the two separation guide rods 71 are respectively arranged on two sides of the bottom plate 21, two ends of the isolation strip 72 are respectively connected with the two separation guide rods 71, two separation driven wheels 76 and two separation connecting bands are respectively connected with the two separation driven wheels 76 through synchronous shafts, and the two separation connecting bands are respectively connected with two ends of the isolation strip 72; further, the isolation strip 72 is a rubber strip; the separating assembly 70 further comprises a separating follower wheel (not shown), the separating follower wheel is hinged to one side of the bottom plate 21 close to the second side plate 13, one end of the separating connecting belt is connected with the separating follower wheel 76, and the other end is connected with the separating follower wheel.

As shown in fig. 7, the bronzing and die-cutting machine 100 further includes a side pushing assembly 80, the side pushing assembly 80 includes a side pushing cam 81, a second synchronizing shaft (not shown), a side pushing member 82, a side pushing link 83, and a side pushing guide rod 84, clamping piece 85, side push shaft 86, locating piece 87, paper release rod 88 and locating piece 89, the second synchronizing shaft wears to establish side push cam 81 and movable table 24, side push piece 82 articulates in one side of movable table 24, side push cam 81 is used for driving side push piece 82 to be close to or keep away from side push connecting rod 83, side push connecting rod 83 connects the one side that clamp plate 22 is close to movable table 24, side push guide rod 84 connects movable table 24, clamping piece 85 connects side push guide rod 84, side push shaft 86 articulates clamping piece 85, the one end of locating piece 87 connects side push connecting rod 83, the other end connects side push shaft 86, the one end of paper release rod 88 is connected side push shaft 86, the other end connects locating piece 89, locating piece 89 is used for joint separation action wheel 75.

As shown in fig. 1, the discharging assembly 90 includes a conveyor belt (not shown) disposed below the pressing plate 22 and a discharging plate 91 connected to one end of the conveyor belt, wherein the discharging plate 91 is slidably disposed on the machine base 10; optionally, the discharging assembly 90 further comprises a discharging driving shaft 92 and a discharging driven shaft (not shown), the discharging driving shaft 92 is connected with the transmission shaft 61 through a belt, one end of the transmission belt is connected with the discharging driving shaft 92, and the other end of the transmission belt is connected with the discharging driven shaft. Further, the discharging assembly 90 further includes a discharging guide rail 93, a stepping shaft 94, a lifting first chain wheel 95, a lifting second chain wheel 96 and a chain (not shown), the lifting first chain wheel 95 is mounted on the stepping shaft 94, the lifting second chain wheel 96 is hinged to one end of the second side plate 13, one end of the chain is connected with the lifting first chain wheel 95, and the other end is connected with the lifting second chain wheel 96; the bearing plate 51 and the discharging plate 91 are respectively connected with a chain, and the bearing plate 51 and the discharging plate 91 are both arranged on the discharging guide rail 93 in a sliding manner; in an embodiment, the discharging guide rails 93, the lifting first chain wheel 95, the lifting second chain wheel 96 and the chains are two and correspond to each other, and the two discharging guide rails 93, the lifting first chain wheel 95 and the lifting second chain wheel 96 are respectively mounted on the first side plate 12 and the second side plate 13. The bronzing and die cutting machine 100 further comprises a controller (not shown), and the controller is respectively connected with the driving power element and the material taking power element through signals so as to realize automatic control.

When in gold stamping, the raw materials are placed on the bearing plate 51, the bearing plate 51 and the discharging plate 91 are adjusted to proper positions, after the gold stamping plate is arranged on the heating plate 23, the gold foil paper is arranged on one side of the heating plate 23 close to the pressing plate 22 in a sliding mode through the conveying shaft 41, and then is recovered through the recovery shaft; then, starting the driving power element and the material taking power element, sucking the raw materials on the bearing plate 51 to the pressing plate 22 by the material taking part 52, and driving the pressing plate 22 to be close to the heating plate 23 by the movable table 24, so that the patterns of the gold stamping plate are transferred to the raw materials to realize gold stamping; after finishing gilding, activity platform 24 drives clamp plate 22 and keeps away from board 23 that generates heat, and the gilt raw materials of completion slips from clamp plate 22 to the transmission band, assembles again at play flitch 91, and simultaneously, the one side of board 23 that generates heat is located in the cunning of parting strip 72, avoids the raw materials to bond gold foil paper, moreover, goes out paper frame 45 control gold foil paper and rotates certain distance, retrieves the gold foil paper that has used. When die cutting is performed, the cutting die plate is arranged on the bottom plate 21, the material taking piece 52 sucks the raw material on the bearing plate 51 to the pressing plate 22, the movable table 24 drives the pressing plate 22 to be close to the bottom plate 21, and the raw material and the cutting die are pressed together to achieve die cutting.

The utility model discloses a dual-purpose machine 100 for gold stamping and die cutting, when gilding, the conveying shaft 41 and the recovery shaft realize the conveying of gold foil paper, the material taking piece 52 places the raw material on the bearing plate 51 on the pressing plate 22, the pressing plate 22 is close to the bottom plate 21 again, and the raw material and the gold foil paper are pressed together to realize gold stamping; when die cutting is carried out, a cutting die plate is arranged on the bottom plate 21, the raw material on the bearing plate 51 is placed on the pressing plate 22 by the material taking piece 52, the pressing plate 22 is close to the bottom plate 21, and the raw material and the cutting die are pressed together to realize the die cutting; this gilt cross cutting dual-purpose machine 100 compact structure, high-efficient stable, the function is various.

The technical features of the embodiments described above may be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the embodiments described above are not described, but should be considered as being within the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The above-mentioned embodiments only represent some embodiments of the present invention, and the description thereof is specific and detailed, but not to be construed as limiting the scope of the present invention. It should be noted that, for those skilled in the art, without departing from the spirit of the present invention, several variations and modifications can be made, which are within the scope of the present invention. Therefore, the protection scope of the present invention should be subject to the appended claims.

Claims (10)

1. The utility model provides a gilt cross cutting dual-purpose machine, its characterized in that includes frame, impression subassembly, send gold foil paper subassembly, pay-off subassembly and ejection of compact subassembly, the impression subassembly includes bottom plate and clamp plate, bottom plate fixed connection the frame, clamp plate swing joint the frame, send gold foil paper subassembly including install in the transport axle of bottom plate top with install in the recovery axle of bottom plate below, the pay-off subassembly is including slidely locating the loading board and the swing joint of frame a plurality of material of getting of frame, the ejection of compact subassembly including set up in the transmission band of clamp plate below is with being connected the play flitch of transmission band one end, it locates to go out the flitch cunning the frame.

2. The dual-purpose machine for gold stamping and die cutting as claimed in claim 1, wherein the stamping assembly further comprises a heating plate, a movable table and an eccentric shaft, the heating plate is connected with the base plate, the movable table is hinged with the base, the pressing plate is connected with the movable table, and the eccentric shaft penetrates through one end of the movable table far away from the base.

3. The dual-purpose machine for gold stamping and die cutting as claimed in claim 2, wherein the stamping assembly further comprises an angle adjusting member, a stamping pull rod, a hook arm and a first synchronizing shaft, the angle adjusting member is hinged to one end of the eccentric shaft, one end of the stamping pull rod is hinged to the angle adjusting member, the other end of the stamping pull rod is hinged to the hook arm, and the first synchronizing shaft penetrates through the hook arm and the movable table.

4. The dual-purpose machine for gold stamping and die cutting as claimed in claim 2, further comprising a side pushing assembly, wherein the side pushing assembly comprises a side pushing cam, a second synchronizing shaft, a side pushing member, a side pushing connecting rod, a side pushing guide rod, a clamping member, a side pushing shaft, a positioning member, a paper placing rod and a limiting member, the second synchronizing shaft penetrates through the side pushing cam and the movable table, the side pushing member is hinged to one side of the movable table, the side pushing cam is used for driving the side pushing member to approach or keep away from the side pushing connecting rod, the side pushing connecting rod is connected with one side of the pressing plate close to the movable table, the side pushing guide rod is connected with the movable table, the clamping member is connected with the side pushing guide rod, the side pushing shaft is hinged with the clamping member, one end of the positioning member is connected with the side pushing connecting rod, the other end of the positioning member is connected with the side pushing shaft, one end of the paper placing rod is connected with the side pushing shaft, the other end is connected with the limiting piece.

5. The dual-purpose machine for gold stamping and die cutting as claimed in claim 2, further comprising a power assembly, wherein the power assembly comprises a driving power element, a first rotating shaft, a second rotating shaft, a third rotating shaft, a fourth rotating shaft, a rotating arm and a pulling arm, the driving power element is used for driving the first rotating shaft to rotate, the first rotating shaft is used for driving the second rotating shaft to rotate, the third rotating shaft is used for driving the fourth rotating shaft to rotate, one end of the rotating arm is hinged with the fourth rotating shaft, the other end of the rotating arm is hinged with the pulling arm, and one end of the pulling arm, which is far away from the rotating arm, is hinged with the eccentric shaft.

6. The dual-purpose machine for gold stamping and die cutting as claimed in claim 5, further comprising a separation assembly, wherein the separation assembly comprises a separation guide rod, a separation strip, a separation cam, a separation driving wheel, a separation driven wheel and a separation connecting belt, the separation guide rod is arranged on one side of the base plate, the separation strip is slidably arranged on the separation guide rod, the separation strip is arranged on one side of the heating plate close to the movable table, the separation cam is connected with the third rotating shaft, the separation driving wheel is hinged on one side of the base, the separation cam is used for driving the separation driving wheel to rotate, the separation driving wheel is meshed with the separation driving wheel, one end of the separation connecting belt is connected with the separation driving wheel, the other end of the separation driving wheel is connected with the separation driven wheel, and the separation connecting belt is connected with the separation connecting belt.

7. The dual-purpose machine for gold stamping and die cutting as claimed in claim 5, wherein the gold foil paper feeding assembly further comprises a paper output member, a paper output first cam, a paper output pull rod, a paper output swing arm, a paper output frame, a paper output clamp, a paper clamping swing arm, a paper output second cam and a paper output connecting rod, wherein one end of the paper output member is connected with the fourth rotating shaft, the paper output first cam is connected with the fourth rotating shaft and used for driving the paper output member to rotate, one end of the paper output pull rod is connected with the paper output first cam, the other end of the paper output pull rod is hinged with the paper output swing arm, the paper output swing arm is connected with the third rotating shaft, one end of the paper output frame is connected with the paper output swing arm, the other end of the paper output frame is hinged with the paper output clamp, the paper clamping swing arm is hinged with one side of the paper output frame, the paper output second cam is connected with the third rotating shaft and used for driving the paper clamping swing arm to rotate, one end of the paper outlet connecting rod is hinged to the paper clamping swing arm, and the other end of the paper outlet connecting rod is hinged to the paper outlet clamp.

8. The dual-purpose machine for gold stamping and die cutting as claimed in claim 5, wherein the feeding assembly further comprises a first feeding cam, a first rear swing arm, a first pull rod, a first front swing arm, a material taking support and a connecting pipe, the first feeding cam is connected with one end of the third rotating shaft, the first feeding cam is used for driving the first rear swing arm to rotate, the first rear swing arm and the first front swing arm are hinged to one side of the machine base respectively, one end of the first pull rod is hinged to one end of the first rear swing arm, the other end of the first pull rod is hinged to the first front swing arm, the material taking support is hinged to one end of the first front swing arm, the connecting pipe is connected with the material taking support, and each material taking piece is connected with the connecting pipe.

9. The dual-purpose machine for gold stamping and die cutting as claimed in claim 8, wherein the feeding assembly further comprises a second feeding cam, a second rear swing arm, a second pull rod, a second front swing arm and a third pull rod, the second feeding cam is connected with one end of the third rotating shaft, the second feeding cam is used for driving the second rear swing arm to rotate, the second rear swing arm and the second front swing arm are respectively hinged to one side of the machine base, one end of the second pull rod is hinged to one end of the second rear swing arm, the other end of the second pull rod is hinged to the second front swing arm, one end of the third pull rod is hinged to the second front swing arm, and the other end of the third pull rod is hinged to one end of the material taking support.

10. The dual-purpose machine for gold stamping and die cutting according to claim 8, further comprising a driving assembly, wherein the driving assembly comprises a transmission shaft, a transmission connecting belt, a material taking power element, a pressure release valve, a cover plate and a material taking cam, the transmission shaft is hinged to the base, one end of the transmission connecting belt is connected with the second rotating shaft, the other end of the transmission connecting belt is connected with the transmission shaft, the material taking power element is communicated with the connecting pipe, the pressure release valve is communicated with the material taking power element, the cover plate is connected with the pressure release valve, the material taking cam is connected with the transmission shaft, and the material taking cam is used for driving the cover plate to rotate.

Images